2. Keywords

name

type

unit

description

AIRMASS

double

Average airmass for the optical axis during the exposure computed for the time while the shutter is open as described in GEN-SPE-ESO-00000-0794.

ARCFILE

string

Unique Data Product ID within the ESO Data Flow System. It is composed of <source>.YYYY-MM-DDTHH:MM::SS.sss.fits where <source> is a unique data producer identifier (typically the name of instrument) and the date and time is set by the time of start of the exposure as as given through the MJD-OBS keyword in the FITS header.

ATM.ALTITUDE

double

m

Height of telescope

ATM.BKG.FILT

string

None

Background filter

ATM.BKG.UNIT

string

None

Background unit

ATM.BKG.VALUE

float

None

Background value

ATM.DIS.FILENAME

string

None

File

ATM.FILENAME

string

None

File with atmosphere data

ATM.HUMIDITY

double

TODO

Humidity of atmosphere

ATM.LATITUDE

double

degree

Latitude of telescope

ATM.LOCATION

string

None

Location

ATM.LONGITUD

double

degree

Longitude of telescope

ATM.PRESSURE

double

TODO

Pressure of atmosphere

ATM.PWV

double

TODO

PWV

ATM.SKY.FILENAME

string

None

File

ATM.SKY.OBSERVAT

string

None

Location

ATM.SKY.WGRIDMOD

string

None

Location

ATM.SKY.WUNIT

string

None

Location

ATM.SPE.FILENAME

string

None

File

ATM.TEMPERAT

double

C

Temperature of telescope

ATM.TER.FILENAME

string

None

File

ATM.TER.REALFILE

string

None

File

BITPIX

integer

Number of bits used to store pixel values Standard values are defined in NOST-100.0 The only valid values are: 8 character of unsigned binary integer 16 16-bit twos-complement binary integer 32 32-bit twos-complement binary integer -32 IEEE single precision floating point -64 IEEE double precision floating point

BLANK

integer

Value used to specify the undefined pixel values. BLANK is normally used to fill out regions of the frame that have not been exposed e.g. because of windowing. The value used must be within the dynamic range given in BITPIX. BLANK is not allowed for non-integer pixels (negative BITPIX).

BSCALE

double

Scale to be applied to values in the frame to obtain original pixel values. See BZERO. BSCALE is only included when not equal 1.

BUNIT

string

String describing the physical unit of the array values. Should conform to the recommendations of the IAU Style manual and GEN-SPE-ESO-00000-0794.

BZERO

double

Offset to be applied to values in the frame to obtain original pixel values. See BSCALE. BZERO is only included when not equal 0. Note that for unsigned integer with 16 bits this is frequently used to “offset” to -32768.0

CDBFILE

string

The filename given to a file on ingestion into the archive calibration database. ——————————————————————–

CDELTn

double

Increment of coordinate specified by CTYPEn for each pixel step at CRPIXn. Possible values for <axis direction> are: rows (1), columns (2), frame(3) For RA and DEC the unit is degree. In this case, the comment field includes the value expressed in seconds of arc. In the proposed WCS system it should be replaced by CDn_m

CDn_ms

double

Gives the translation from array axis n to coordinate axis m. For images the comment should read SS.ss arcsec per pixel

CHECKSUM

string

32 bit Cyclic Redundant Check (CRC) calculation of the frame. It uses the CCITT standard CRC polynomials. A description and C code can be found at http://archive.eso.org/DICB/checksum

CHECKVER

string

Default is “COMPLEMENT” Describes the algorithm for the calculation of the checksum. It is recommended to omit this keyword when the default is used.

COMMENT

string

This keyword is used to include comments in the header.

CRDERns

double

Gives the representative average value of the random error over the range of the coordinate

CROTAn

double

deg

Rotation relative to the coordinate system described by CTYPEn Possible values for <axis direction> are: rows (1), columns (2), frame (3) The use of this keyword is deprecated. It should be replaced by CDn_m

CRPIXn

double

Pixel position of the reference point in axis n. Possible values for <axis direction> are: rows (1), columns (2), frame (3) By convention the center of the pixel is pix.0, pix.5 gives the right edge of the pixel. Reference pixel is also used to identify the pointing centre (with respect to the WCS transformation, i.e. the optical axis).

CRVALn

double

Coordinate value as specified by CTYPEn at reference pixel CRPIXn. Possible values for <axis direction> are: rows (1), columns (2), frame (3) If world coordinates are used (i.e. CTYPEn is either RA—TAN and DEC–TAN), the comment field includes the value expressed in hours, minutes and seconds (RA) or degrees, minutes, and seconds (DEC). The unit has to be degrees, if RA and DEC are used as world coordinates.

CSYERns

double

Gives the representative average value of the systematic error over the range of the coordinate

CTYPEn

string

Name of the coordinate represented by axis n. Possible values for <axis direction> are: rows (1), columns (2), frame (3) Examples for values are “PIXEL”, “RA—TAN”, “DEC–TAN”

CUNITn

string

Unit of the coordinate in n axis n

DATAMAX

double

Maximum pixel value across the frame (excludes special values, i.e BLANK).

DATAMD5

string

This field holds the MD5 signature of all data sections contained in the FITS file. It is useful to provide a unique identity to a file belonging to a group.

DATAMIN

double

Minimum pixel value across the frame excludes special values, i.e. BLANK).

DATASUM

string

The checksum calculated for the data sections only. For dataless records this keyword should be set to “0”.

DATE

string

UTC date on which this file was written. The following format shall be used: YYYY-MM-DDThh:mm:ss.sss

DATE-OBS

string

UTC date on which the data of this file were obtained. The format used is YYYY-MM-DDThh:mm:ss.sss

DEC

double

deg

Telescope pointing in mean places of equinox J2000, expressed in decimal degrees. The comment field include the value expressed in degrees, minutes and seconds.

DET.ANGLE

double

degree

Angle of detector

DET.DAR.FILENAME

string

None

File with DET.DAR values

DET.DAR.VALUE

double

e/s

Dark current value

DET.DIT

double

s

Detector integration time (average when NDIT > 1)

DET.EXP.FILENAME

string

None

File with DET.EXP values

DET.EXP.STATE

bool

None

State of ExposureAction

DET.FILENAME

string

None

File with DET values

DET.GAIN

double

e/adu

Gain of the detector

DET.ID

string

None

Identifier of detector

DET.IMAGE_PL

integer

None

Number of this detector in the image plane

DET.LIN.FILENAME

string

None

File with Nonlinearity Curve

DET.LIN.REALFILE

string

None

File with Nonlinearity Curve

DET.NAME

string

None

Name of the detector array

DET.NDIT

integer

None

Number of detector integrations

DET.PIXELSIZ

double

mm

Pixel size

DET.PIXSIZE

double

mm

Pixel size

DET.QEC.FILENAME

string

None

File with Quantum Efficiency Curve

DET.QEC.REALFILE

string

None

File with Quantum Efficiency Curve

DET.REA.NCHANNEL

integer

None

N Channel

DET.REA.NOISESTD

double

TBD

Noise STD

DET.READOUT

string

None

Readout mode of the detector

DET.REF.ALL

integer

None

Number of pixels blanked

DET.SHO.FILENAME

string

None

File with DET.SHO values

DET.SHO.STATE

bool

None

State of shotnoise

DET.TEMPERAT

double

C

Temperature of detector array

DET.XHW

double

mm

xhw

DET.X_CEN

double

mm

X center

DET.X_SIZE

int

pix

x_size

DET.YHW

double

mm

yhw

DET.Y_CEN

double

mm

Y center

DET.Y_SIZE

int

pix

y_size

DO.CATG

string

Category of the data, usually transient

DPR.CATG

string

None

Data product category

DPR.TECH

string

None

Data product technique

DPR.TYPE

string

None

Data product type

END

string

This keyword signals the end of the header unit. It has to be last keyword in the header and has no value associated with it. Columns 9 to 80 shall be filled with ASCII blanks.

EQUINOX

double

Epoch of the mean equator and equinox of the coordinate system used to express the WCS mapping. Should alway be 2000.0 (FK5).

ESO-LOG

string

This keyword is used to include operations log entries in the header. Normally, log records that are written during the exposure are also repeated for information purposes in the header. Only the leftmost 71 characters of the log records are reproduced in this keyword. The equal sign “=” is not allowed as the first character in the comment.

EXPTIME

double

s

The integration time for a single observation (in the infrared this corresponds to DIT. Note that this does not represent the photon statistics).

EXTEND

logical

Set to T when extension used. This keyword has to appear in the primary header immediately after the last NAXISn card image, or, if NAXIS=0, the NAXIS card image.

EXTINCT

double

mag

Extinction of the observation

EXTLEVEL

integer

Used to establish a hierarchical separation among extensions within a FITS file.

EXTNAME

string

Used to distinguish different extensions of the same type in the FITS file.

EXTVER

integer

Used to distinguish different extensions of the same type and name in the FITS file.

FILENAME

string

None

Filename of the data (useful e.g. if the data is only in memory)

FILTNAME

string

None

TODO: Placeholder for filter name

GAIN

double

e/adu

Gain of the detector

GCOUNT

integer

Used to define the data structure see NOST Definition of FITS – NOST 100-2.0 (March 1999) page 21.

HISTORY

string

This keyword is used to include history information in the header.

ICCOEFi

double

None

Illumination Correction Coefficient

INHERIT

bool

If an extension header contains the keyword INHERIT = T, then that header should inherit the keywords from the primary header (except for the mandatory and commentary keywords).

INS.DROT

double

degree

Derotator angle

INS.FILENAME

string

None

File with instrument values

INS.FILT.FILENAME

string

None

File with filter curve

INS.FILT.MINIMUM_

double

None

Make sure the the Filter effect is passing minimum_throughput larger than the wing transmission. I.e. if the TC has 0.0001 wings, set minimum_throughput : 0.00011

INS.FILT.NAME

string

None

Filter name

INS.FILT.OUTER

double

m

Outer diameter of the filter.

INS.FILT.REALFILE

string

None

Actual File with filter curve

INS.FILTi.NAME

string

None

Filter name

INS.MIR.FILENAME

string

None

File with mirror surfaces

INS.MIR.REALFILE

string

None

File with mirror surfaces

INS.MOD.FILENAME

string

None

File with mode-specific mirror surfaces

INS.MOD.REALFILE

string

None

File with mode-specific mirror surfaces

INS.MODE

string

None

Instrument Mode

INS.NAME

string

None

Name of instrument

INS.NCP.FILENAME

string

None

File with NonCommonPathAberration PSF

INS.NCP.REALFILE

string

None

File with NonCommonPathAberration PSF

INS.OPTI6.NAME

string

None

Pupil wheel filter name

INS.PLATE_SC

double

arcsec/mm

Plate scale

INS.READMODE

string

None

Readout mode of the detector

INS.STA.FILENAME

string

None

File with static mirror surfaces

INS.STA.REALFILE

string

None

File with mirror surfaces

INS.TEMPERAT

double

C

Temperature of the instrument.

INSTNAME

string

None

Name of instrument

INSTRUME

string

ESO acronym for the instrument used.

LST

double

s

Local Sidereal Time at start of the exposure in seconds elapsed since sidereal midnight. The comment includes a civil representation of the value.

MJD-OBS

double

Modified Julian Day of the start of the exposure. The MJD is related to the Julian Day (JD) via the formula: MJD = JD-2400000.5 The comment includes a civil representation of the date and time. 8 decimals are required for a precision of one millisecond, 5 decimals for a precision of one second.

NAXIS

integer

Number of axes of the data array (limited to less than 999). A value of 0 signifies that no data follow the header in the HDU (header and data unit).

NAXISn

integer

pixel

Number of pixels along the n axis in the array. Possible values for <axis direction> are: rows (1), columns (2), frame (3)

OBJECT

string

Identification of target observed.

OBS.DEC

double

deg

Declination

OBS.FILENAME

string

None

Filename of the Observation configuration

OBS.INSTRUME

string

None

ESO acronym for the instrument used.

OBS.NAME

string

None

Name of the observation

OBS.RA

double

deg

Right Ascension

OBS.TARGET

string

None

Target of the observation

OBS.TPLNO

integer

None

Number of the template of this exposure in an ObservingBlock

OBSERVER

string

Initials, family name of observer.

OCS.PXSCALE

double

arcsec/pix

Pixel scale

ORIGFILE

string

Name of the frame when it was generated on instrument workstation.

ORIGIN

string

Observatory source of this file. The value is either “ESO-LASILLA” or “ESO-PARANAL”.

PCOUNT

integer

Used to define the data structure see NOST Definition of FITS – NOST 100-2.0 (March 1999) page 21.

PI-COI

string

Name(s) of proposer(s) (as opposed to observer)

PIPEFILE

string

Filename of data product as created by the pipeline.

PRO.ARCFILE

string

The archive file name of the raw data frame that lead to this data product. Only present if product results from a single input frame.

PRO.CATG

string

Category of pipeline product defined in the instrument’s product data description file (pdd).

PRO.DATAAVG

double

Mean of the pixel values in the frame. All pixels are taken into account.

PRO.DATAMED

double

Exact median of the pixel values in the frame. All pixels are taken into account.

PRO.DATANCOM

integer

Number of input frames combined to compute data product.

PRO.DATARMS

double

Population standard deviation (sigma) of the pixel values in the frame. All pixels are taken into account.

PRO.DID

string

Name/version of ESO DID to which PRO keywords comply.

PRO.DO.ID

string

Identification of the Data Organizer subsystem. Format: DO-<version_ID>.

PRO.EXPTTOT

double

s

The sum of the exposure times of all frames combined to compute data product.

PRO.PLACEHOL

string

None

Placeholder

PRO.RB.ID

string

Identification of Reduction Block file (without directory).

PRO.RBS.ID

string

Identification of the Reduction Block Scheduler subsystem. Format: RBS-<version_ID>.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.REDLEVEL

string

Reduction level of this data product. Possible values depend on the instrument. See instrument pipeline user manual for description.

PRO.TYPE

string

Identification of type of data product. Value: either “TEMPORARY”, “PREPROCESSED”, “REDUCED” or “QCPARAM”.

PVn_ks

double

Describes the parameter k for the axis n. Required for certain coordinate types

QC.AIRGFWHMMEDIAN

double

pixel

FWHM median of the detected airglow lines

QC.AIRGLINPOSDEVMAX

double

Maximum of the airglow line position deviation

QC.AIRGLINPOSDEVMEAN

double

Mean of the airglow line position deviation

QC.AIRGLINPOSDEVMEDIAN

double

Median of the airglow line position deviation

QC.AIRGLINPOSDEVMIN

double

Minimum of the airglow line position deviation

QC.AIRGPOLYCOEFF

double array

Coefficients of the polynomial fit to the airglow lines

QC.AIRGPOLYDEG

integer

Degree of the polynomial fit for the airglow lines (= parameter REC.AIRGPOLYDEG)

QC.BACKGROUNDMEANn

float

ADU

mean value of the pixels in the image per detector n.

QC.BACKGROUNDMEDn

float

ADU

median of the pixel values in the image per detector n.

QC.BACKGROUNDSTDn

float

ADU

standard deviation of the pixel values in the image per detector n.

QC.CALIBCATDECMEA

float

degree

mean DEC value of the sources in catalog in degrees.

QC.CALIBCATDECMED

float

degree

median DEC value of the sources in catalog in degrees.

QC.CALIBCATDECSTD

float

degree

standard deviation DEC value of the sources in catalog in degrees.

QC.CALIBCATNSOURCES

float

none

number of sources in catalog.

QC.CALIBCATRAMEA

float

degree

mean RA value of the sources in catalog in degrees.

QC.CALIBCATRAMED

float

degree

median RA value of the sources in catalog in degrees.

QC.CALIBCATRASTD

float

degree

standard deviation RA value of the sources in catalog in degrees.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMINi

float

None

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.DARKMEAN

double

e/s

Mean dark current

QC.DARKMED

double

e/s

Median dark current

QC.DARKSTD

double

e/s

Standard deviation of dark current

QC.DCRVALn

float

None

Change in DCRVALn of pointing of astrometric solution compared to nominal RA of pointing for each detector

QC.DEPERSISTEDIMGMEANn

float

ADU

mean pixel value of the image of detector n.

QC.DEPERSISTEDIMGMEDn

float

ADU

median of pixel values of the image of detector n.

QC.DEPERSISTEDIMGSTDn

float

ADU

standard deviation of pixel values of the image of detector n.

QC.DETRENCR

int

None

Total number of cosmic rays detected in each detector

QC.DETSMEAN

double

adu

Mean sky brightness

QC.DETSMED

double

adu

Median sky brightness in each detector

QC.DETSSTD

double

adu

standard deviation of pixel values in each detector.

QC.DISTORTXMAX

float

None

Maximal distortion in X.

QC.DISTORTXMEAN

float

None

Mean distortion in X.

QC.DISTORTXMEDIAN

float

None

Median distortion in X.

QC.DISTORTXMIN

float

None

Minimal distortion in X.

QC.DISTORTYMAX

float

None

Maximal distortion in Y.

QC.DISTORTYMEAN

float

None

Mean distortion in Y.

QC.DISTORTYMEDIAN

float

None

Median distortion in Y.

QC.DISTORTYMIN

float

None

Minimal distortion in Y.

QC.FITSTD

float

None

Quality of fit.

QC.FLATMEAN

double

adu

Mean of pixel values before normalisation in each detector

QC.FLATMED

int

adu

Median of pixel values before normalisation in each detector

QC.FLATSTD

double

adu

Standard deviation of pixel values before normalisation in each detector

QC.FPIXCOLD

float

None

Percentage of cold pixels

QC.FPIXHOT

float

None

Percentage of hot pixels

QC.FPIXNONL

float

None

Percentage of non-linear pixels

QC.FPIXSAT

float

None

Percentage of saturated pixels

QC.ILLSNRMD

float

None

Median signal-to-noise ratio of sources matched to the reference catalog in each in each detector.

QC.ILLUNMAT

int

None

Number of sources matched to the reference catalog in each detector.

QC.LINEFWHMMEDIAN

double

pixel

FWHM median of the detected calibration lamp lines

QC.LINEPOLYCOEFF

double array

Coefficients of the polynomial fit to the calibration lamp lines

QC.LINEPOLYDEG

integer

Degree of the polynomial fit for the lamp lines (= parameter REC.LINEPOLYDEG)

QC.LINPOSDEVMAX

double

Maximum of the lamp line position deviation

QC.LINPOSDEVMEAN

double

Mean of the lamp line position deviation

QC.LINPOSDEVMEDIAN

double

Median of the lamp line position deviation

QC.LINPOSDEVMIN

double

Minimum of the lamp line position deviation

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMINi

float

None

QC.NITER

int

None

Number of iterations for fit.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NPIXCOLD

int

None

Number of cold pixels

QC.NPIXHOT

int

None

Number of hot pixels

QC.NPIXNONL

int

None

Number of non-linear

QC.NPIXSAT

int

None

Number of saturated pixels

QC.NUMAIRGLINESFOUND

integer

Number of detected airglow lines

QC.NUMAIRGLINESMISSED

integer

Number of airglow lines, which were not detected

QC.NUMLINESFOUND

integer

Number of detected calibration lamp lines

QC.NUMLINESMISSED

integer

Number of calibration lamp lines, which were not detected

QC.NUMLINESSKIPPED

integer

Number of calibration lamp lines which are skipped, e.g. due to false detections

QC.PERSISTENCEIMGMEANn

float

ADU

mean of pixel values of the image of detector n.

QC.PERSISTENCEIMGMEDn

float

ADU

median of pixel values of the image of detector n.

QC.PERSISTENCEIMGSTDn

float

ADU

standard deviation of pixel values of the image of detector n.

QC.REGRIDMEANn

float

ADU

mean of pixel values of the image of detector n.

QC.REGRIDMEDn

float

ADU

median of pixel values of the image of detector n.

QC.REGRIDSTDn

float

ADU

standard deviation of pixel values of the image of detector n.

QC.RMSDDEC

float

mas

rms of DEC residuals with reference stars in mas.

QC.RMSDRA

float

mas

rms of RA residuals with reference stars in mas.

QC.STACKMEANn

float

ADU

mean of pixel values of the image of detector n.

QC.STACKMEDn

float

ADU

median of pixel values of the image of detector n.

QC.STACKSTDn

float

ADU

standard deviation of pixel values of the image of detector n.

QC.STAROFFSETSNRMAXn

float

ADU

maximum signal-to-noise of TBD of detector n.

QC.STAROFFSETSNRMEANn

float

ADU

mean signal-to-noise of TBD of detector n.

QC.STAROFFSETSNRMEDn

float

ADU

median signal-to-noise of TBD of detector n.

QC.STAROFFSETSNRMINn

float

ADU

minimum signal-to-noise of TBD of detector n.

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMINi

float

None

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

RA

double

deg

Telescope pointing in mean places of equinox J2000, expressed in decimal degrees. The comment field include the value expressed in hours, minutes and seconds.

RADECSYS

string

coordinate system. Normally “FK5”

READMODE

string

None

Readout mode of the detector

REC.DARK.THRESUP

double

adu

Upper threshold of dark values

REC.FLAT.THRESLOW

double

adu

Lower threshold of flat values

REC.NONLIN.THRESUP

double

None

Upper threshold of non-linearity as percentage of flux

REL.FILENAME

string

None

File with relay optics values

REL.PSF.FILENAME

string

None

File with relay psf

REL.PSF.REALFILE

string

None

File with relay psf

REL.SUR.FILENAME

string

None

File with relay surfaces

REL.SUR.REALFILE

string

None

File with relay surfaces

SIMPLE

logical

SIMPLE must be equal to “T” to conform to FITS.

SUR.ANGLE

double

degree

Angle diameter of the surface.

SUR.FILENAME

string

None

File with TER curve

SUR.INNER

double

m

Inner diameter of the surface.

SUR.NAME

string

None

Name of the surface

SUR.OUTER

double

m

Outer diameter of the surface.

SUR.TEMPERAT

double

C

Temperature of the surface.

TBCOLn

integer

This keyword is mandatory for ASCII tables. It specifies the column in which field <n> starts.

TDISPn

string

Describes the recommended display of the contents of field n. see NOST Definition of FITS – NOST 100-2.0 (March 1999) page 45. Only used for binary table extensions.

TEL.FILENAME

string

None

File

TEL.NAME

string

None

Name of telescope

TEL.REF.FILENAME

string

None

File

TEL.REF.REALFILE

string

None

File

TEL.SUR.FILENAME

string

None

File

TEL.SUR.REALFILE

string

None

File

TEL.TELESCOP

string

None

Name of telescope

TEL.TER.FILENAME

string

None

File

TEL.VIB.FILENAME

string

None

File

TEL.VIB.FWHM

double

TODO

FWHM

TELESCOP

string

ESO telescope code as defined in GEN-SPE-ESO-00000-0794

TFIELDS

integer

This keyword is mandatory for tables

TFORMn

string

This keyword is mandatory for tables according Standard FITS format (NOST-100-2.0) The format follows the one of ANSI FORTAN-77. Allowed values for ASCII tables are: (w and d are the number of decimals to be specified) Aw characters Iw decimal integers Fw.d single precision real Ew.d single precision real, exponential notation Dw.d double precision real, exponential notation A repeat count is not allowed for ASCII tables. Allowed data types for binary tables are: L logical X bit B unsigned byte I 16-bit integer J 32-bit integer A character E single precision floating point D double precision floating point C single precision complex M double precision complex P array descriptor A repeat count can be combined with these data type, e.g. 5A, 7I

TNULLn

string

Value used to specify the undefined table values.

TPL.CLS

string

None

Identifier of template

TPL.EXPNO

integer

None

Number of this exposure in a Template

TPL.FILENAME

string

None

Filename of template

TPL.INSTRUME

string

None

ESO acronym for the instrument used.

TPL.MJD-OBS

double

TPL.START

double

None

Start time of template

TSCALn

double

Scale to be applied to values in the table to obtain original pixel values. See TZEROn. TSCALn is only included when not equal 1.

TTYPEn

string

Use of identical names for different fields should be avoided.

TUNITn

string

TZEROn

double

Offset to be applied to values in the table to obtain original pixel values. See TSCALn. TZEROn is only included when not equal 0.0

UTC

double

s

Universal Time at start of the exposure in seconds elapsed since midnight. The comment includes a civil representation of the value.

XTENSION

string

Indicates start of an extension block in the FITS file. This keyword is mandatory for an extension header and must not appear in the primary header. Possible values are: “TABLE ” for ASCII tables “BINTABLE” for binary tables “IMAGE ” for image extensions

ZEROPNT

double

mag

Zeropoint of the observation

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

ICCOEFi

double

None

Illumination Correction Coefficient

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

INS.FILTi.NAME

string

None

Filter name

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.CATG

string

Category of the calibration frame as given by the instrument’s .pdd file.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.DATAMD5

string

This field holds the MD5 signature of all data sections contained in the calibration file. It is useful to provide a unique identity to a file belonging to a group.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.CALi.NAME

string

File name of calibration frame.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.DRS.ID

string

Identification of Data Reduction system used. Format: DRS-name/version.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.ID

string

Identification of pipeline recipe which produced the frame. Note: If frame is generated from raw data i=1, otherwise PRO REC1 ID, PRO REC2 ID, … reflect the processing history. Format: Recipe-name.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.DVALUE

double

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.IVALUE

integer

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.LVALUE

logical

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.NAME

string

Name of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PARAMi.SVALUE

string

Value of parameter passed to the recipe.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.PIPE.ID

string

Identification of the instrument pipeline which produced the frame. Format: Pipeline-name/version.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.CATG

string

Category of the raw frame as given by the instrument’s .bdd or .pdd file.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.RAWi.NAME

string

File name of raw frame.

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.START

string

Date when recipe execution started (ISO 8601).

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STATUS

string

Pipeline status of product. Valid fields are: “INFO” (not important warning, only emitted for information purposes) “SERIOUS” (the warning is about something important, but that did not prevent from producing data. User should take a look at the log files). If the pipeline status of the frame is OK, the keyword is omitted.

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

PRO.RECi.STOP

string

Date when recipe execution finished (ISO 8601).

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALIMEAi

float

None

Mean of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.CALISTDi

float

None

Standard deviation of the pixel values in the calibrated image per detector <i>.

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMAXi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEANi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMEDi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPHOT.SNRMINi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMAXi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEANi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMEDi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.COROPOS.SNRMINi

float

None

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBEMEAi

float

None

Mean of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.CUBESTDi

float

None

Standard deviation of the pixel values in the cube image per exposure <i>.

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMAXi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEANi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMEDi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.LYOT.SNRMINi

float

None

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.NMATCHi

int

None

Number of sources for which a cross-match with the reference catalog is made for each detector <d>.

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMAXi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEANi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMEDi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.STARPOS.SNRMINi

float

None

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.

QC.ZPTSTDi

float

None

Standard deviation in zeropoint as inferred for each source that is cross-matched with reference catalog for each detector <i>.