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Glossary of OSA attributes
This Glossary alphabetically lists all attributes used in the OSAv20230621 database(s) held in the OSA. If you would like to have more information about the schema tables please use the OSAv20230621 Schema Browser (other Browser versions).

A

B

C

D

E

F

G

H

I

J

K

L

M

N

O

P

Q

R

S

T

U

V

W

X

Y

Z

A
Name	Schema Table	Database	Description	Type	Length	Unit	Default Value	Unified Content Descriptor
a	twomass_psc	TWOMASS	Catalog identifier of an optical source from either the Tycho 2 or USNO-A2.0 catalog that falls within ~5" of the TWOMASS source position.	varchar	1			meta.id
A1	mgcGalaxyStruct	MGC	Asymmetry index (background corrected) alpha=1	real	4		99.99
A2	mgcGalaxyStruct	MGC	Asymmetry index (background corrected) alpha=2	real	4		99.99
A3	mgcGalaxyStruct	MGC	Asymmetry index (background corrected) alpha=3	real	4		99.99
A4	mgcGalaxyStruct	MGC	Asymmetry index (background corrected) alpha=4	real	4		99.99
a_g_percentile_lower	gaia_source	GAIADR2	Lower uncertainty on A_G	real	4	mag		phys.absorption.gal;stat.min
a_g_percentile_upper	gaia_source	GAIADR2	Upper uncertainty on A_G	real	4	mag		phys.absorption.gal;stat.max
a_g_val	gaia_source	GAIADR2	Line-of-sight extinction in the G band, A_G	real	4	mag		phys.absorption.gal
A_IMAGE	mgcDetection	MGC	Flux rms along major axis	real	4	pixel
ab_flags	catwise_2020, catwise_prelim	WISE	Two character (W1 W2) artifact flag	varchar	9
abbe	phot_variable_time_series_g_fov_statistical_parameters	GAIADR1	Abbe value of the G-band time series values	float	8			stat.value
abMagLim	MultiframeDetector	ATLASDR1	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASDR2	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASDR3	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASDR4	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASDR5	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASv20131127	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASv20160425	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	ATLASv20180209	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	VPHASDR3	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	VPHASv20160112	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
abMagLim	MultiframeDetector	VPHASv20170222	5-sigma limiting AB magnitude for point sources {catalogue extension keyword:  ABMAGLIM}	real	4	mag	-0.9999995e9
ABS_CSB_BULGE	mgcGalaxyStruct	MGC	Absolute Central Surface Brightness of Bulge	real	4	Vega mag/sq arcsec	99.99
ABS_CSB_DISK	mgcGalaxyStruct	MGC	Absolute Central Surface Brightness of Disk	real	4	Vega mag/sq arcsec	99.99
ABS_ESB_BULGE	mgcGalaxyStruct	MGC	Absolute Effective Surface Brightness of Bulge	real	4	Vega mag/sq arcsec	99.99
ABS_ESB_DISK	mgcGalaxyStruct	MGC	Absolute Effective Surface Brightness of Disk	real	4	Vega mag/sq arcsec	99.99
ABS_HLRSB_BULG	mgcGalaxyStruct	MGC	Absolute Surface Brightness at Re	real	4	Vega mag/sq arcsec	99.99
ABS_HLRSB_DISK	mgcGalaxyStruct	MGC	Absolute Surface Brightness at 1.678alpha	real	4	Vega mag/sq arcsec	99.99
ABS_MAG_GIM2D	mgcGalaxyStruct	MGC	GIM2D B Absolute Disk mag, dust and K & E-corrected	real	4	Vega mag	99.99
ABS_MAG_GIM2DB	mgcGalaxyStruct	MGC	GIM2D B Absolute mag, dust and K & E-corrected	real	4	Vega mag	99.99
ABS_MAG_GIM2DD	mgcGalaxyStruct	MGC	GIM2D B Absolute Bulge mag, dust and K & E-corrected	real	4	Vega mag	99.99
ABS_SB_B	mgcGalaxyStruct	MGC	MGC B Absolute KRON SB, dust K & E-corrected	real	4	Vega mag	-99.000
ABS_SB_g	mgcGalaxyStruct	MGC	SDSS g Absolute PET SB, dust K & E-corrected	real	4	AB mag	-99.000
ABS_SB_i	mgcGalaxyStruct	MGC	SDSS i Absolute PET SB, dust K & E-corrected	real	4	AB mag	-99.000
ABS_SB_r	mgcGalaxyStruct	MGC	SDSS r Absolute PET SB, dust K & E-corrected	real	4	AB mag	-99.000
ABS_SB_u	mgcGalaxyStruct	MGC	SDSS u Absolute PET SB, dust K & E-corrected	real	4	AB mag	-99.000
ABS_SB_z	mgcGalaxyStruct	MGC	SDSS z Absolute PET SB, dust K & E-corrected	real	4	AB mag	-99.000
abSatMag	MultiframeDetector	ATLASDR1	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASDR2	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASDR3	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASDR4	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASDR5	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASv20131127	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASv20160425	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	ATLASv20180209	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	VPHASDR3	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	VPHASv20160112	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
abSatMag	MultiframeDetector	VPHASv20170222	Saturation limit for point sources (AB magnitude) {catalogue extension keyword:  ABMAGSAT}	real	4	mag	-0.9999995e9
absMagPsf_g	mgcGalaxyStruct	MGC	SDSS g Absolute PSF mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPsf_i	mgcGalaxyStruct	MGC	SDSS i Absolute PSF mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPsf_r	mgcGalaxyStruct	MGC	SDSS r Absolute PSF mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPsf_u	mgcGalaxyStruct	MGC	SDSS u Absolute PSF mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPsf_z	mgcGalaxyStruct	MGC	SDSS z Absolute PSF mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPt_B	mgcGalaxyStruct	MGC	MGC B Absolute KRON mag, dust K & E-corrected	real	4	Vega mag	-99.000
absMagPt_g	mgcGalaxyStruct	MGC	SDSS g Absolute PET mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPt_i	mgcGalaxyStruct	MGC	SDSS i Absolute PET mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPt_r	mgcGalaxyStruct	MGC	SDSS r Absolute PET mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPt_u	mgcGalaxyStruct	MGC	SDSS u Absolute PET mag, dust K & E-corrected	real	4	AB mag	-99.000
absMagPt_z	mgcGalaxyStruct	MGC	SDSS z Absolute PET mag, dust K & E-corrected	real	4	AB mag	-99.000
adaAbsrotEnd	MultiframeEsoKeys	ATLASDR1	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASDR2	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASDR3	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASDR4	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASDR5	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASv20131127	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASv20160425	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	ATLASv20180209	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	VPHASDR3	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	VPHASv20160112	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotEnd	MultiframeEsoKeys	VPHASv20170222	Abs rot angle at exp end {image primary HDU keyword: HIERARCH ESO ADA ABSROT END}	real	4	deg	-9.999995e+08
adaAbsrotPpos	MultiframeEsoKeys	ATLASDR1	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASDR2	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASDR3	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASDR4	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASDR5	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASv20131127	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASv20160425	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	ATLASv20180209	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	VPHASDR3	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	VPHASv20160112	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotPpos	MultiframeEsoKeys	VPHASv20170222	sign of probe position {image primary HDU keyword: HIERARCH ESO ADA ABSROT PPOS}	varchar	4		NONE
adaAbsrotStart	MultiframeEsoKeys	ATLASDR1	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASDR2	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASDR3	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASDR4	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASDR5	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASv20131127	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASv20160425	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	ATLASv20180209	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	VPHASDR3	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	VPHASv20160112	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaAbsrotStart	MultiframeEsoKeys	VPHASv20170222	Abs rot angle at exp start {image primary HDU keyword: HIERARCH ESO ADA ABSROT START}	real	4	deg	-9.999995e+08
adaGuidStatus	MultiframeEsoKeys	ATLASDR1	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASDR2	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASDR3	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASDR4	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASDR5	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASv20131127	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASv20160425	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	ATLASv20180209	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	VPHASDR3	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	VPHASv20160112	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaGuidStatus	MultiframeEsoKeys	VPHASv20170222	Status of autoguider {image primary HDU keyword: HIERARCH ESO ADA GUID STATUS}	varchar	4		NONE
adaPosang	MultiframeEsoKeys	ATLASDR1	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASDR2	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASDR3	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASDR4	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASDR5	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASv20131127	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASv20160425	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	ATLASv20180209	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	VPHASDR3	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	VPHASv20160112	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adaPosang	MultiframeEsoKeys	VPHASv20170222	Position angle at start {image primary HDU keyword: HIERARCH ESO ADA POSANG}	real	4		-9.999995e+08
adjacentFrameTolerance	Programme	ATLASDR1	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASDR2	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASDR3	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASDR4	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASDR5	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASv20131127	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASv20160425	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	ATLASv20180209	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	VPHASDR3	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	VPHASv20160112	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
adjacentFrameTolerance	Programme	VPHASv20170222	The match tolerance for adjacent frames in the survey	real	4	Degrees		??
aebv	Filter	ATLASDR2	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASDR3	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASDR4	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASDR5	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASv20131127	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASv20160425	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	ATLASv20180209	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	VPHASDR3	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	VPHASv20160112	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter	VPHASv20170222	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aebv	Filter, FilterSections	ATLASDR1	The constant to multiply the Schlegel map E(B-V) by to get the total galactic extinction.	real	4		-0.9999995e9
aG	atlasSource	ATLASDR1	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9
aG	atlasSource	ATLASDR2	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9
aG	atlasSource	ATLASDR3	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aG	atlasSource	ATLASDR4	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aG	atlasSource	ATLASDR5	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aG	atlasSource	ATLASv20131127	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9
aG	atlasSource	ATLASv20160425	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aG	atlasSource	ATLASv20180209	The galactic extinction correction in the G band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aI	atlasSource	ATLASDR1	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9
aI	atlasSource	ATLASDR2	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9
aI	atlasSource	ATLASDR3	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aI	atlasSource	ATLASDR4	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aI	atlasSource	ATLASDR5	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aI	atlasSource	ATLASv20131127	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9
aI	atlasSource	ATLASv20160425	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aI	atlasSource	ATLASv20180209	The galactic extinction correction in the I band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
air_temp	twomass_scn	TWOMASS	Air temperature at beginning of scan.	real	4	degC		phys.temperature
air_temp	twomass_sixx2_scn	TWOMASS	air temperature (deg C) at beginning of scan	real	4	degC
airm	twomass_scn	TWOMASS	Airmass at beginning of scan.	real	4			obs.airMass
airm	twomass_sixx2_scn	TWOMASS	beginning airmass of scan	real	4
Al	ravedr5Source	RAVE	[Al/H] abundance of Al	real	4	dex		phys.abund.Z
Al_N	ravedr5Source	RAVE	Number of used spectral lines in calc. of [Al/H]	smallint	2			meta.number
Algo_Conv_K	ravedr5Source	RAVE	Quality Flag for Stellar Parameter pipeline,[0..4]	int	4			meta.code.qual
Alpha_c	ravedr5Source	RAVE	[Alpha/Fe] [Chemical pipeline] (Note 2)	real	4	dex		phys.abund
amEnd	Multiframe	ATLASDR1	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASDR2	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASDR3	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASDR4	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASDR5	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASv20131127	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASv20160425	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	ATLASv20180209	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	VPHASDR3	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	VPHASv20160112	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amEnd	Multiframe	VPHASv20170222	Airmass at end of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM END}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASDR1	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASDR2	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASDR3	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASDR4	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASDR5	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASv20131127	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASv20160425	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	ATLASv20180209	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	VPHASDR3	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	VPHASv20160112	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
amStart	Multiframe	VPHASv20170222	Airmass at start of observation {image primary HDU keyword: HIERARCH ESO TEL AIRM START}	real	4		-0.9999995e9	obs.airMass
ANCHOR_PARITY	mgcGalaxyStruct	MGC	0=OK, 1=Inverted, 2=LSB BULGE	tinyint	1		9 (FIX)
ANCHOR_POINT	mgcGalaxyStruct	MGC	Radius at which MU_BULGE=MU_DISK	real	4	kpc	9
ANCHOR_SB	mgcGalaxyStruct	MGC	Surface brightness at Anchor Point	real	4	Vega mag/sq arcsec	99.99
anom	twomass_scn	TWOMASS	Special flag indicating whether or not an unusual problem was found in the Atlas Images for this scan.	smallint	2			meta.code
anom	twomass_sixx2_scn	TWOMASS	entry in coadd anomaly table (0:not found|1:found)	smallint	2
Ap35mag_I	denisDR3Source	DENIS	Magnitude in I band from 3.5" aperture	float	8	mag
Ap35mag_J	denisDR3Source	DENIS	Magnitude in J band from 3.5" aperture	float	8	mag
Ap35mag_K	denisDR3Source	DENIS	Magnitude in K band from 3.5" aperture	float	8	mag
Ap45mag_I	denisDR3Source	DENIS	Magnitude in I band from 4.5" aperture	float	8	mag
Ap45mag_J	denisDR3Source	DENIS	Magnitude in J band from 4.5" aperture	float	8	mag
Ap45mag_K	denisDR3Source	DENIS	Magnitude in K band from 4.5" aperture	float	8	mag
Ap55mag_I	denisDR3Source	DENIS	Magnitude in I band from 5.5" aperture	float	8	mag
Ap55mag_J	denisDR3Source	DENIS	Magnitude in J band from 5.5" aperture	float	8	mag
Ap55mag_K	denisDR3Source	DENIS	Magnitude in K band from 5.5" aperture	float	8	mag
apassZPCat	MultiframeDetector	ATLASDR2	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	ATLASDR3	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	ATLASDR4	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	ATLASDR5	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	ATLASv20160425	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	ATLASv20180209	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	VPHASDR3	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	VPHASv20160112	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	MultiframeDetector	VPHASv20170222	APASS zero point (AB) for default extinction {catalogue extension keyword:  APASSZPT}	real	4	mags	-0.9999995e9	??
apassZPCat	PreviousMFDZP	ATLASDR4	Photometric zeropoint for APASS (AB) in catalogue header	real	4	mag	-0.9999995e9
apassZPCat	PreviousMFDZP	ATLASDR5	Photometric zeropoint for APASS (AB) in catalogue header	real	4	mag	-0.9999995e9
apassZPErrCat	MultiframeDetector	ATLASDR2	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	ATLASDR3	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	ATLASDR4	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	ATLASDR5	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	ATLASv20160425	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	ATLASv20180209	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	VPHASDR3	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	VPHASv20160112	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	MultiframeDetector	VPHASv20170222	APASS zero point error {catalogue extension keyword:  APASSZRR}	real	4	mags	-0.9999995e9	??
apassZPErrCat	PreviousMFDZP	ATLASDR4	Photometric zeropoint error for APASS (AB) in catalogue header	real	4	mag	-0.9999995e9
apassZPErrCat	PreviousMFDZP	ATLASDR5	Photometric zeropoint error for APASS (AB) in catalogue header	real	4	mag	-0.9999995e9
apassZPNum	MultiframeDetector	ATLASDR2	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	ATLASDR3	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	ATLASDR4	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	ATLASDR5	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	ATLASv20160425	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	ATLASv20180209	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	VPHASDR3	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	VPHASv20160112	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
apassZPNum	MultiframeDetector	VPHASv20170222	Number of APASS standards used {catalogue extension keyword:  APASSNUM}	int	4		-99999999
Apc15mag_I	denisDR3Source	DENIS	I band Magnitude in 1.5" corr. aperture	float	8	mag
Apc15mag_J	denisDR3Source	DENIS	J band Magnitude in 1.5" corr. aperture	float	8	mag
Apc15mag_K	denisDR3Source	DENIS	K band Magnitude in 1.5" corr. aperture	float	8	mag
Apc25mag_I	denisDR3Source	DENIS	I band Magnitude in 2.5" corr. aperture	float	8	mag
Apc25mag_J	denisDR3Source	DENIS	J band Magnitude in 2.5" corr. aperture	float	8	mag
Apc25mag_K	denisDR3Source	DENIS	K band Magnitude in 2.5" corr. aperture	float	8	mag
Apc35mag_I	denisDR3Source	DENIS	I band Magnitude in 3.5" corr. aperture	float	8	mag
Apc35mag_J	denisDR3Source	DENIS	J band Magnitude in 3.5" corr. aperture	float	8	mag
Apc35mag_K	denisDR3Source	DENIS	K band Magnitude in 3.5" corr. aperture	float	8	mag
aperCor1	MultiframeDetector	ATLASDR1	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASDR2	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASDR3	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASDR4	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASDR5	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASv20131127	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASv20160425	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	ATLASv20180209	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	VPHASDR3	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	VPHASv20160112	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor1	MultiframeDetector	VPHASv20170222	Stellar aperture correction: 1⁄2 × core flux {catalogue extension keyword:  APCOR1} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASDR1	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASDR2	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASDR3	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASDR4	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASDR5	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASv20131127	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASv20160425	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	ATLASv20180209	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	VPHASDR3	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	VPHASv20160112	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor2	MultiframeDetector	VPHASv20170222	Stellar aperture correction: 1⁄√2 core flux {catalogue extension keyword:  APCOR2} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASDR1	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASDR2	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASDR3	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASDR4	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASDR5	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASv20131127	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASv20160425	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	ATLASv20180209	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	VPHASDR3	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	VPHASv20160112	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor3	MultiframeDetector	VPHASv20170222	Stellar aperture correction: core flux {catalogue extension keyword:  APCOR3} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASDR1	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASDR2	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASDR3	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASDR4	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASDR5	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASv20131127	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASv20160425	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	ATLASv20180209	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	VPHASDR3	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	VPHASv20160112	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor4	MultiframeDetector	VPHASv20170222	Stellar aperture correction: √2 × core flux {catalogue extension keyword:  APCOR4} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASDR1	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASDR2	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASDR3	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASDR4	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASDR5	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASv20131127	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASv20160425	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	ATLASv20180209	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	VPHASDR3	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	VPHASv20160112	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor5	MultiframeDetector	VPHASv20170222	Stellar aperture correction: 2 × core flux {catalogue extension keyword:  APCOR5} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASDR1	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASDR2	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASDR3	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASDR4	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASDR5	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASv20131127	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASv20160425	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	ATLASv20180209	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	VPHASDR3	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	VPHASv20160112	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor6	MultiframeDetector	VPHASv20170222	Stellar aperture correction: 2√2 × core flux {catalogue extension keyword:  APCOR6} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASDR1	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASDR2	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASDR3	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASDR4	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASDR5	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASv20131127	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASv20160425	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	ATLASv20180209	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	VPHASDR3	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	VPHASv20160112	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCor7	MultiframeDetector	VPHASv20170222	Stellar aperture correction: 4 × core flux {catalogue extension keyword:  APCOR7} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASDR1	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASDR2	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASDR3	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASDR4	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASDR5	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASv20131127	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASv20160425	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	ATLASv20180209	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	VPHASDR3	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	VPHASv20160112	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperCorPeak	MultiframeDetector	VPHASv20170222	Stellar aperture correction: peak height {catalogue extension keyword:  APCORPK} corrected photometry = 2.5×log10(flux) + aperCor + skyCorr	real	4		-0.9999995e9	??
			Aperture corrections in magnitudes needed to correct the assorted aperture-like measures produced in the catalogues onto the equivalent of a total flux stellar system. These constitute the components of a curve-of-growth analysis contained within the catalogues with radii defined in the previous table. They also work well as a first order seeing correction for faint galaxies. Larger aperture corrections are not included.
aperFlux1	atlasDetection	ATLASDR1	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASDR3	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASDR4	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASDR5	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASv20131127	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASv20160425	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection	ATLASv20180209	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	atlasDetection, atlasDetectionUncorr	ATLASDR2	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	vphasDetection	VPHASv20160112	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	vphasDetection	VPHASv20170222	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux1	vphasDetection, vphasDetectionUncorr	VPHASDR3	Default aperture flux counts 1 {catalogue TType keyword: Aper_flux_1} 1/2 × rcore	real	4	ADU		phot.count;em.opt
			These are a series of different radii soft-edged apertures designed to adequately sample the curve-of-growth of the majority of images and to provide fixed-sized aperture fluxes for all images. The scale size for these apertures is selected by defining a scale radius ≈<FWHM> for site+instrument. The "core" radius (rcore) has been fixed at 1.0 arcsec for convenience in inter-comparison with other datasets. A 1.0 arcsec radius is equivalent to 3.0 pixels for non-interleaved data, 6.0 pixels for 2×2 interleaved data, and 9.0 pixels for 3×3 interleaved data. In ≈1 arcsec seeing an rcore-radius aperture contains roughly 2/3 of the total flux of stellar images. [In general the rcore parameter is user specifiable and hence is recorded in the output catalogue FITS header.] The aperture fluxes are sky-corrected integrals (summations) with a soft-edge (ie. pro-rata flux division for boundary pixels). However, for overlapping images they are more subtle than this since they are in practice simultaneously fitted top-hat functions, to minimise the effects of crowding. Images external to the blend are also flagged and not included in the large radius summations. Extras for generalised galaxy photometry further spaced in radius to ensure reasonable sampling further out. Note these are all corrected for pixels from overlapping neighbouring images. The aperture fluxes can be combined with later-derived aperture corrections for general purpose photometry and together with pHeight (the peak flux) give a simple curve-of-growth measurement which forms the basis of the morphological classification scheme.
aperFlux10	atlasDetection	ATLASDR1	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASDR3	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASDR4	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASDR5	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASv20131127	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASv20160425	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection	ATLASv20180209	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	vphasDetection	VPHASv20160112	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	vphasDetection	VPHASv20170222	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 10 {catalogue TType keyword: Aper_flux_10} 7 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux10err	atlasDetection	ATLASDR1	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASDR3	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASDR4	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASDR5	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASv20131127	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASv20160425	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection	ATLASv20180209	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	vphasDetection	VPHASv20160112	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	vphasDetection	VPHASv20170222	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux10err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 10 {catalogue TType keyword: Aper_flux_10_err}	real	4	ADU		stat.error
aperFlux11	atlasDetection	ATLASDR1	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASDR3	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASDR4	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASDR5	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASv20131127	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASv20160425	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection	ATLASv20180209	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	vphasDetection	VPHASv20160112	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	vphasDetection	VPHASv20170222	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 11 {catalogue TType keyword: Aper_flux_11} 8 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux11err	atlasDetection	ATLASDR1	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASDR3	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASDR4	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASDR5	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASv20131127	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASv20160425	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection	ATLASv20180209	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	vphasDetection	VPHASv20160112	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	vphasDetection	VPHASv20170222	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux11err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 11 {catalogue TType keyword: Aper_flux_11_err}	real	4	ADU		stat.error
aperFlux12	atlasDetection	ATLASDR1	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASDR3	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASDR4	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASDR5	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASv20131127	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASv20160425	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection	ATLASv20180209	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	vphasDetection	VPHASv20160112	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	vphasDetection	VPHASv20170222	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 12 {catalogue TType keyword: Aper_flux_12} 10 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux12err	atlasDetection	ATLASDR1	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASDR3	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASDR4	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASDR5	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASv20131127	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASv20160425	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection	ATLASv20180209	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	vphasDetection	VPHASv20160112	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	vphasDetection	VPHASv20170222	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux12err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 12 {catalogue TType keyword: Aper_flux_12_err}	real	4	ADU		stat.error
aperFlux13	atlasDetection	ATLASDR1	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASDR3	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASDR4	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASDR5	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASv20131127	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASv20160425	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection	ATLASv20180209	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	vphasDetection	VPHASv20160112	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	vphasDetection	VPHASv20170222	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 13 {catalogue TType keyword: Aper_flux_13} 12 × rcore ie. ≈24 arcsec diameter. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux13err	atlasDetection	ATLASDR1	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASDR3	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASDR4	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASDR5	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASv20131127	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASv20160425	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection	ATLASv20180209	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	vphasDetection	VPHASv20160112	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	vphasDetection	VPHASv20170222	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux13err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 13 {catalogue TType keyword: Aper_flux_13_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASDR1	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASDR3	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASDR4	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASDR5	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASv20131127	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASv20160425	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection	ATLASv20180209	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	vphasDetection	VPHASv20160112	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	vphasDetection	VPHASv20170222	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux1err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux counts 1 {catalogue TType keyword: Aper_flux_1_err}	real	4	ADU		stat.error
aperFlux2	atlasDetection	ATLASDR1	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASDR3	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASDR4	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASDR5	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASv20131127	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASv20160425	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection	ATLASv20180209	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	atlasDetection, atlasDetectionUncorr	ATLASDR2	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	vphasDetection	VPHASv20160112	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	vphasDetection	VPHASv20170222	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2	vphasDetection, vphasDetectionUncorr	VPHASDR3	Default aperture flux 2 {catalogue TType keyword: Aper_flux_2} 1/√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU		phot.count;em.opt
aperFlux2err	atlasDetection	ATLASDR1	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASDR3	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASDR4	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASDR5	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASv20131127	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASv20160425	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection	ATLASv20180209	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	vphasDetection	VPHASv20160112	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	vphasDetection	VPHASv20170222	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux2err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 2 {catalogue TType keyword: Aper_flux_2_err}	real	4	ADU		stat.error
aperFlux3	atlasDetection	ATLASDR1	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASDR3	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASDR4	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASDR5	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASv20131127	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASv20160425	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection	ATLASv20180209	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	vphasDetection	VPHASv20160112	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	vphasDetection	VPHASv20170222	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 3 {catalogue TType keyword: Aper_flux_3} rcore; recommended if a single number is required to represent the flux for ALL images. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux3err	atlasDetection	ATLASDR1	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASDR3	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASDR4	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASDR5	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASv20131127	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASv20160425	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection	ATLASv20180209	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	vphasDetection	VPHASv20160112	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	vphasDetection	VPHASv20170222	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux3err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 3 {catalogue TType keyword: Aper_flux_3_err}	real	4	ADU		stat.error
aperFlux4	atlasDetection	ATLASDR1	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASDR3	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASDR4	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASDR5	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASv20131127	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASv20160425	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection	ATLASv20180209	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	vphasDetection	VPHASv20160112	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	vphasDetection	VPHASv20170222	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 4 {catalogue TType keyword: Aper_flux_4} √2 × rcore; ensures ∼99% of PSF flux. (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux4err	atlasDetection	ATLASDR1	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASDR3	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASDR4	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASDR5	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASv20131127	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASv20160425	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection	ATLASv20180209	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	vphasDetection	VPHASv20160112	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	vphasDetection	VPHASv20170222	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux4err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 4 {catalogue TType keyword: Aper_flux_4_err}	real	4	ADU		stat.error
aperFlux5	atlasDetection	ATLASDR1	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASDR3	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASDR4	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASDR5	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASv20131127	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASv20160425	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection	ATLASv20180209	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	vphasDetection	VPHASv20160112	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	vphasDetection	VPHASv20170222	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 5 {catalogue TType keyword: Aper_flux_5} 2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux5err	atlasDetection	ATLASDR1	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASDR3	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASDR4	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASDR5	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASv20131127	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASv20160425	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection	ATLASv20180209	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	vphasDetection	VPHASv20160112	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	vphasDetection	VPHASv20170222	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux5err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 5 {catalogue TType keyword: Aper_flux_5_err}	real	4	ADU		stat.error
aperFlux6	atlasDetection	ATLASDR1	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASDR3	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASDR4	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASDR5	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASv20131127	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASv20160425	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection	ATLASv20180209	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	vphasDetection	VPHASv20160112	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	vphasDetection	VPHASv20170222	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 6 {catalogue TType keyword: Aper_flux_6} 2√2 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux6err	atlasDetection	ATLASDR1	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASDR3	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASDR4	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASDR5	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASv20131127	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASv20160425	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection	ATLASv20180209	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	vphasDetection	VPHASv20160112	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	vphasDetection	VPHASv20170222	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux6err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 6 {catalogue TType keyword: Aper_flux_6_err}	real	4	ADU		stat.error
aperFlux7	atlasDetection	ATLASDR1	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASDR3	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASDR4	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASDR5	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASv20131127	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASv20160425	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection	ATLASv20180209	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	vphasDetection	VPHASv20160112	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	vphasDetection	VPHASv20170222	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 7 {catalogue TType keyword: Aper_flux_7} 4 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux7err	atlasDetection	ATLASDR1	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASDR3	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASDR4	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASDR5	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASv20131127	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASv20160425	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection	ATLASv20180209	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	vphasDetection	VPHASv20160112	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	vphasDetection	VPHASv20170222	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux7err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 7 {catalogue TType keyword: Aper_flux_7_err}	real	4	ADU		stat.error
aperFlux8	atlasDetection	ATLASDR1	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASDR3	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASDR4	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASDR5	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASv20131127	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASv20160425	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection	ATLASv20180209	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	vphasDetection	VPHASv20160112	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	vphasDetection	VPHASv20170222	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 8 {catalogue TType keyword: Aper_flux_8} 5 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux8err	atlasDetection	ATLASDR1	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASDR3	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASDR4	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASDR5	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASv20131127	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASv20160425	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection	ATLASv20180209	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	vphasDetection	VPHASv20160112	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	vphasDetection	VPHASv20170222	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux8err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 8 {catalogue TType keyword: Aper_flux_8_err}	real	4	ADU		stat.error
aperFlux9	atlasDetection	ATLASDR1	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASDR3	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASDR4	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASDR5	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASv20131127	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASv20160425	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection	ATLASv20180209	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	atlasDetection, atlasDetectionUncorr	ATLASDR2	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	vphasDetection	VPHASv20160112	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	vphasDetection	VPHASv20170222	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9	vphasDetection, vphasDetectionUncorr	VPHASDR3	default aperture flux 9 {catalogue TType keyword: Aper_flux_9} 6 × rcore (see glossary entry for aperFlux1)	real	4	ADU	aperture	phot.count;em.opt
aperFlux9err	atlasDetection	ATLASDR1	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASDR3	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASDR4	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASDR5	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASv20131127	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASv20160425	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection	ATLASv20180209	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	vphasDetection	VPHASv20160112	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	vphasDetection	VPHASv20170222	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperFlux9err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in aperture flux 9 {catalogue TType keyword: Aper_flux_9_err}	real	4	ADU		stat.error
aperMag1	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag1	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 10. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag10err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag10err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 10	real	4	mag		stat.error
aperMag11	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 11. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag11err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag11err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 11	real	4	mag		stat.error
aperMag12	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 12. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag12err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag12err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 12	real	4	mag		stat.error
aperMag13	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 13. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag13err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag13err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 13	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag1err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 1	real	4	mag		stat.error
aperMag2	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 2	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag2err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag2err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 2	real	4	mag		stat.error
aperMag3	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 3. aperMag3 has also a saturation correction applied for saturated stars.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag3err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag3err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 3	real	4	mag		stat.error
aperMag4	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 4	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag4err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag4err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 4	real	4	mag		stat.error
aperMag5	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 5	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag5err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag5err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 5	real	4	mag		stat.error
aperMag6	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 6	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag6err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag6err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 6	real	4	mag		stat.error
aperMag7	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 7	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag7err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag7err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 7	real	4	mag		stat.error
aperMag8	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 8. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag8err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag8err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 8	real	4	mag		stat.error
aperMag9	atlasDetection	ATLASDR1	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASDR3	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASDR4	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASDR5	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASv20131127	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASv20160425	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection	ATLASv20180209	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	vphasDetection	VPHASv20160112	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	vphasDetection	VPHASv20170222	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and corrected aperture magnitude 9. No aperture correction applied since it is 0.	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMag9err	atlasDetection	ATLASDR1	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASDR3	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASDR4	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASDR5	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASv20131127	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASv20160425	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection	ATLASv20180209	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	atlasDetection, atlasDetectionUncorr	ATLASDR2	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	vphasDetection	VPHASv20160112	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	vphasDetection	VPHASv20170222	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMag9err	vphasDetection, vphasDetectionUncorr	VPHASDR3	Error in calibrated aperture magnitude 9	real	4	mag		stat.error
aperMagNoAperCorr1	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr1	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr2	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr3	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr4	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr5	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr6	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASDR1	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASDR4	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASDR5	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASv20131127	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASv20160425	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection	ATLASv20180209	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	atlasDetection, atlasDetectionUncorr	ATLASDR2	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	vphasDetection	VPHASv20160112	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	vphasDetection	VPHASv20170222	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperMagNoAperCorr7	vphasDetection, vphasDetectionUncorr	VPHASDR3	Calibrated and standard corrected (but no aperture correction applied) aperture magnitude 1	real	4	mag		phot.mag
			The aperture magnitudes are calculated from the given aperFlux values. The following standard corrections have been applied: zero points, extinction, exposure time, distortion, and illumination. Additionally aperMag3 has a saturation correction applied in case that: sky*peakHeight > 0.9*saturate. aperMag values also have the apermag corrections applied opposed to the AperMagNoAperCorr values. Since the apermag corrections for aperMags8 to 13 are 0, no apermag corrections (or a zero correction) have been applied to these values.
aperture	RequiredListDrivenProduct	ATLASDR1	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASDR2	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASDR3	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASDR4	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASDR5	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASv20131127	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASv20160425	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	ATLASv20180209	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	VPHASDR3	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	VPHASv20160112	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aperture	RequiredListDrivenProduct	VPHASv20170222	CASU list-driven photometry tool option specifying the fixed radius to be used for photometry	real	4	pixels		??
aProf1	atlasDetection	ATLASDR1	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASDR3	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASDR4	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASDR5	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf1	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 1 (can be non-integer for deblends) {catalogue TType keyword: Areal_1_profile}	real	4	pixels		meta.number
			Number of pixels above a series of threshold levels relative to local sky. Levels are set at T, 2T, 4T, 8T … 128T where T is the threshold. These can be thought of as a sort of poor man's radial profile. Note that for now deblended, ie. overlapping images, only the first areal profile is computed and the rest are set to -1 flagging the difficulty of computing accurate profiles. For blended images this parameter is used to flag the start of the sequence of the deblended components by setting the first in the sequence to 0.
aProf2	atlasDetection	ATLASDR1	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASDR3	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASDR4	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASDR5	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf2	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 2 {catalogue TType keyword: Areal_2_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASDR1	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASDR3	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASDR4	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASDR5	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf3	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 3 {catalogue TType keyword: Areal_3_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASDR1	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASDR3	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASDR4	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASDR5	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf4	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 4 {catalogue TType keyword: Areal_4_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASDR1	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASDR3	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASDR4	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASDR5	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf5	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 5 {catalogue TType keyword: Areal_5_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASDR1	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASDR3	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASDR4	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASDR5	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf6	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 6 {catalogue TType keyword: Areal_6_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASDR1	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASDR3	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASDR4	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASDR5	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf7	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 7 {catalogue TType keyword: Areal_7_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASDR1	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASDR3	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASDR4	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASDR5	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASv20131127	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASv20160425	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection	ATLASv20180209	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	atlasDetection, atlasDetectionUncorr	ATLASDR2	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	vphasDetection	VPHASv20160112	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	vphasDetection	VPHASv20170222	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aProf8	vphasDetection, vphasDetectionUncorr	VPHASDR3	No. of pixels above rethreshold 8 {catalogue TType keyword: Areal_8_profile} (see glossary entry for aProf1)	int	4	pixels		meta.number
aR	atlasSource	ATLASDR1	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9
aR	atlasSource	ATLASDR2	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9
aR	atlasSource	ATLASDR3	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aR	atlasSource	ATLASDR4	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aR	atlasSource	ATLASDR5	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aR	atlasSource	ATLASv20131127	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9
aR	atlasSource	ATLASv20160425	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aR	atlasSource	ATLASv20180209	The galactic extinction correction in the R band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
arcfile	Multiframe	ATLASDR1	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASDR2	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASDR3	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASDR4	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASDR5	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASv20131127	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASv20160425	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	ATLASv20180209	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	VPHASDR3	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	VPHASv20160112	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
arcfile	Multiframe	VPHASv20170222	Archive File Name {image primary HDU keyword: ARCFILE}	varchar	64		NONE
astrometric_chi2_al	gaia_source	GAIADR2	Along-Scan chi-square value	real	4			stat.fit.chi2
astrometric_delta_q	gaia_source, tgas_source	GAIADR1	Hipparcos/Gaia data discrepancy (Hipparcos subset of TGAS only)	real	4			stat.value
astrometric_excess_noise	gaia_source	GAIADR2	Excess noise of the source	float	8	milliarcsec		stat.value
astrometric_excess_noise	gaia_source, tgas_source	GAIADR1	Excess noise of the source	float	8	milliarcsec		stat.value
astrometric_excess_noise_sig	gaia_source	GAIADR2	Significance of the excess noise	float	8			stat.value
astrometric_excess_noise_sig	gaia_source, tgas_source	GAIADR1	Significance of the excess noise	float	8			stat.value
astrometric_gof_al	gaia_source	GAIADR2	Goodness of fit statistic of model wrt Along-Scan observations	real	4			stat.fit.goodness
astrometric_matched_observations	gaia_source	GAIADR2	Matched FoV transits used in the AGIS solution	smallint	2			meta.number
astrometric_n_bad_obs_ac	gaia_source, tgas_source	GAIADR1	Number of bad observations in the Across-Scan direction	int	4			meta.number
astrometric_n_bad_obs_al	gaia_source	GAIADR2	Number of bad observations in the Along-Scan direction	int	4			meta.number
astrometric_n_bad_obs_al	gaia_source, tgas_source	GAIADR1	Number of bad observations in the Along-Scan direction	int	4			meta.number
astrometric_n_good_obs_ac	gaia_source, tgas_source	GAIADR1	Number of good observations in the Across-Scan direction	int	4			meta.number
astrometric_n_good_obs_al	gaia_source	GAIADR2	Number of good observations in the Along-Scan direction	int	4			meta.number
astrometric_n_good_obs_al	gaia_source, tgas_source	GAIADR1	Number of good observations in the Along-Scan direction	int	4			meta.number
astrometric_n_obs_ac	gaia_source	GAIADR2	Total number of observations in the Across-Scan direction	int	4			meta.number
astrometric_n_obs_ac	gaia_source, tgas_source	GAIADR1	Total number of observations in the Across-Scan direction	int	4			meta.number
astrometric_n_obs_al	gaia_source	GAIADR2	Total number of observations in the Along-Scan direction	int	4			meta.number
astrometric_n_obs_al	gaia_source, tgas_source	GAIADR1	Total number of observations in the Along-Scan direction	int	4			meta.number
astrometric_params_solved	gaia_source	GAIADR2	Which parameters have been solved for?	tinyint	1			meta.number
astrometric_primary_flag	gaia_source	GAIADR2	Primary or secondary	tinyint	1			meta.code.status
astrometric_primary_flag	gaia_source, tgas_source	GAIADR1	Primary or secondary	bit	1			meta.code
astrometric_priors_used	aux_qso_icrf2_match	GAIADR1	Type of prior used in the astrometric solution	int	4			meta.number
astrometric_priors_used	gaia_source, tgas_source	GAIADR1	Type of prior used in the astrometric solution	int	4
astrometric_pseudo_colour	gaia_source	GAIADR2	Astrometrically determined pseudocolour of the source	real	4	micron^-1		em.wavenumber
astrometric_pseudo_colour_error	gaia_source	GAIADR2	STandard error of the pseudocolour of the source	real	4	micron^-1		em.wavenumber
astrometric_relegation_factor	gaia_source, tgas_source	GAIADR1	Relegation factor	real	4			arith.factor
astrometric_sigma_5d_max	gaia_source	GAIADR2	The longest semi-major axis of the 5d error ellipsoid	real	4	mas		pos.errorEllipse;stat.max
astrometric_weight_ac	gaia_source, tgas_source	GAIADR1	Mean astrometric weight of the source Across-Scan	real	4			stat.weight;stat.mean
astrometric_weight_al	gaia_source	GAIADR2	Mean astrometric weight of the source Along-Scan	real	4	mas^-2		stat.weight;stat.mean
astrometric_weight_al	gaia_source, tgas_source	GAIADR1	Mean astrometric weight of the source Along-Scan	real	4			stat.weight;stat.mean
atlasZPCat	MultiframeDetector	ATLASDR4	Final ATLAS zero point (AB) for default extinction, calculated by ATLAS team using GaiaDR2 + photometry {catalogue extension keyword:  ATLASZPT}	real	4	mags	-0.9999995e9	??
atlasZPCat	MultiframeDetector	ATLASDR5	Final ATLAS zero point (AB) for default extinction, calculated by ATLAS team using GaiaDR2 + photometry {catalogue extension keyword:  ATLASZPT}	real	4	mags	-0.9999995e9	??
atlasZPCat	PreviousMFDZP	ATLASDR4	Photometric zeropoint for final ATLAS (AB) in catalogue header	real	4	mag	-0.9999995e9
atlasZPCat	PreviousMFDZP	ATLASDR5	Photometric zeropoint for final ATLAS (AB) in catalogue header	real	4	mag	-0.9999995e9
atlasZPErrCat	MultiframeDetector	ATLASDR4	ATLAS zero point error {catalogue extension keyword:  ATLASZRR}	real	4	mags	-0.9999995e9	??
atlasZPErrCat	MultiframeDetector	ATLASDR5	ATLAS zero point error {catalogue extension keyword:  ATLASZRR}	real	4	mags	-0.9999995e9	??
atlasZPErrCat	PreviousMFDZP	ATLASDR4	Photometric zeropoint error for final ATLAS (AB) in catalogue header	real	4	mag	-0.9999995e9
atlasZPErrCat	PreviousMFDZP	ATLASDR5	Photometric zeropoint error for final ATLAS (AB) in catalogue header	real	4	mag	-0.9999995e9
aU	atlasSource	ATLASDR1	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9
aU	atlasSource	ATLASDR2	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9
aU	atlasSource	ATLASDR3	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aU	atlasSource	ATLASDR4	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aU	atlasSource	ATLASDR5	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aU	atlasSource	ATLASv20131127	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9
aU	atlasSource	ATLASv20160425	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aU	atlasSource	ATLASv20180209	The galactic extinction correction in the U band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aux_epc	igsl_source	GAIADR1	Flag indicating presence in Ecliptic Poles Catalogue (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_gsc23	igsl_source	GAIADR1	Flag indicating presence in GSC2.3 (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_hip	igsl_source	GAIADR1	Flag indicating presence in Hipparcos (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_lqrf	igsl_source	GAIADR1	Flag indicating presence in LQRF (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_ogle	igsl_source	GAIADR1	Flag indicating presence in OGLE (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_ppmxl	igsl_source	GAIADR1	Flag indicating presence in PPMXL (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_sdss	igsl_source	GAIADR1	Flag indicating presence in SDSS (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_tmass	igsl_source	GAIADR1	Flag indicating presence in 2MASS PSC (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_tycho	igsl_source	GAIADR1	Flag indicating presence in Tycho (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
aux_ucac	igsl_source	GAIADR1	Flag indicating presence in UCAC (0 = no; 1 = yes)	bit	1			meta.id;meta.dataset
AV_Schlegel	ravedr5Source	RAVE		float	8	mag Total Extinction in V-band from Schlegel et al. (1998)		phys.absorption
averageConf	atlasDetection	ATLASDR1	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASDR3	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASDR4	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASDR5	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASv20131127	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASv20160425	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection	ATLASv20180209	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	atlasDetection, atlasDetectionUncorr	ATLASDR2	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	vphasDetection	VPHASv20160112	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	vphasDetection	VPHASv20170222	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
averageConf	vphasDetection, vphasDetectionUncorr	VPHASDR3	The average confidence level in the default 2 arcsec diameter aperture (aper3). {catalogue TType keyword: Av_conf}	real	4		-99999999	meta.code
avSaturLevel	MultiframeDetector	ATLASDR1	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASDR2	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASDR3	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASDR4	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASDR5	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASv20131127	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASv20160425	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	ATLASv20180209	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	VPHASDR3	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	VPHASv20160112	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avSaturLevel	MultiframeDetector	VPHASv20170222	Average saturation level in frame {catalogue extension keyword:  SATURATE}	real	4		-9.999995e+08
avStellarEll	MultiframeDetector	ATLASDR1	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASDR2	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASDR3	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASDR4	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASDR5	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASv20131127	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASv20160425	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	ATLASv20180209	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	VPHASDR3	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	VPHASv20160112	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
avStellarEll	MultiframeDetector	VPHASv20170222	Average stellar ellipticity (1-b/a) {catalogue extension keyword:  ELLIPTIC} Should not average much above 0.15 for "normal" frames	real	4		-0.9999995e9	src.ellipticity
axis1Length	MultiframeDetector	ATLASDR1	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASDR2	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASDR3	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASDR4	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASDR5	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASv20131127	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASv20160425	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	ATLASv20180209	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	VPHASDR3	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	VPHASv20160112	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis1Length	MultiframeDetector	VPHASv20170222	length of data axis 1 (X-axis size) {image extension keyword: (Z)NAXIS1}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASDR1	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASDR2	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASDR3	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASDR4	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASDR5	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASv20131127	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASv20160425	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	ATLASv20180209	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	VPHASDR3	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	VPHASv20160112	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
axis2Length	MultiframeDetector	VPHASv20170222	length of data axis 2 (Y-axis size) {image extension keyword: (Z)NAXIS2}	int	4		-99999999	meta.number
aZ	atlasSource	ATLASDR1	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9
aZ	atlasSource	ATLASDR2	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9
aZ	atlasSource	ATLASDR3	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aZ	atlasSource	ATLASDR4	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aZ	atlasSource	ATLASDR5	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aZ	atlasSource	ATLASv20131127	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9
aZ	atlasSource	ATLASv20160425	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal
aZ	atlasSource	ATLASv20180209	The galactic extinction correction in the Z band for extragalactic objects	real	4	mag	-0.9999995e9	phys.absorption.gal