====> file Kast_Blue_Bias--PLynam_2020-10-17.fits (main) <==== SIMPLE = T / NORMAL FITS IMAGE BITPIX = 16 / DATA PRECISION NAXIS = 2 / NUMBER OF IMAGE DIMENSIONS NAXIS1 = 2112 / NUMBER OF COLUMNS NAXIS2 = 350 / NUMBER OF ROWS CRVAL1U = 0 / COLUMN ORIGIN CRVAL2U = 1230 / ROW ORIGIN CDELT1U = 1 / COLUMN CHANGE PER PIXEL CDELT2U = -1 / ROW CHANGE PER PIXEL OBSNUM = 102 / OBSERVATION NUMBER IDNUM = 6 / IMAGE ID UGEOM = 6 / UCAM READOUT GEOMETRY DGEOM = 6 / DESCRAMBLE GEOMETRY AMPSROW = 2 / AMPLIFIERS PER ROW AMPSCOL = 1 / AMPLIFIERS PER COLUMN OBSTYPE = 'DARK' / IMAGE TYPE EXPTIME = 0 / Exp time (not counting shutter error) BSCALE = 1 / DATA SCALE FACTOR BZERO = 32768 / DATA ZERO POINT COMMENT Real Value = FITS*BSCALE+BZERO PROGRAM = 'NEWCAM' / New Lick Camera VERSION = 'kastb' / Data acquisition version TSEC = 1602978945 / CLOCK TICK - SECONDS TUSEC = 204303 / CLOCK TICK - MICROSECONDS DATE = '2020-10-17T23:55:45.20' / UT of CCD readout & descramble DATASEC = '[1:2048,1:350]' / IRAF/NOAO-style data section COMMENT End of cards hard-coded in fits_cards COMMENT Begin of cards from other times CSYER2 = 0.01666669920087 / systematic error along direction of WCS axis i CSYER1 = 0.01666669920087 / systematic error along direction of WCS axis i CRDER2 = 0.0001219999976456 / random error along direction of WCS axis i CRDER1 = 0.0001219999976456 / random error along direction of WCS axis i CD2_2 = -2.980729959745E-06 / CTM element i_j from FITS axis j to WCS axis i CD2_1 = 0.0001219640034833 / CTM element i_j from FITS axis j to WCS axis i CD1_2 = -0.0001219640034833 / CTM element i_j from FITS axis j to WCS axis i CD1_1 = -2.980729959745E-06 / CTM element i_j from FITS axis j to WCS axis i CRVAL2 = 37.38924789429 / coord value of WCS axis i at ref pixel CRVAL1 = 264.0670166016 / coord value of WCS axis i at ref pixel CRPIX2 = 175 / reference pixel along FITS axis j CRPIX1 = 962 / reference pixel along FITS axis j CUNIT2 = 'deg ' / unit of WCS axis i CUNIT1 = 'deg ' / unit of WCS axis i EQUINOX = 2000 / date of celestial reference frame RADECSYS= 'FK5 ' / reference system for celestial coordinates CNAME2 = 'Declination ' / name of WCS axis i CNAME1 = 'Right Ascension ' / name of WCS axis i CTYPE2 = 'DEC--TAN ' / type of WCS axis i CTYPE1 = 'RA---TAN ' / type of WCS axis i WCSNAME = 'Celestial coordinates' / name of WCS CSYER2C = 0 / systematic error along direction of WCS axis i CSYER1C = 0 / systematic error along direction of WCS axis i CRDER2C = 0 / random error along direction of WCS axis i CRDER1C = 0 / random error along direction of WCS axis i CD2_2C = -1 / CTM element i_j from FITS axis j to WCS axis i CD2_1C = 0 / CTM element i_j from FITS axis j to WCS axis i CD1_2C = 0 / CTM element i_j from FITS axis j to WCS axis i CD1_1C = 1 / CTM element i_j from FITS axis j to WCS axis i CRVAL2C = 1230 / coord value of WCS axis i at ref pixel CRVAL1C = 0 / coord value of WCS axis i at ref pixel CRPIX2C = 0.5 / reference pixel along FITS axis j CRPIX1C = 0.5 / reference pixel along FITS axis j CUNIT2C = 'CCDpix ' / unit of WCS axis i CUNIT1C = 'CCDpix ' / unit of WCS axis i CNAME2C = 'CCD Y pixel ' / name of WCS axis i CNAME1C = 'CCD X pixel ' / name of WCS axis i CTYPE2C = 'linear ' / type of WCS axis i CTYPE1C = 'linear ' / type of WCS axis i WCSNAMEC= 'CCD pixel coordinates' / name of WCS CSYER2S = 0.01666669920087 / systematic error along direction of WCS axis i CSYER1S = 0.01666669920087 / systematic error along direction of WCS axis i CRDER2S = 0.0001219999976456 / random error along direction of WCS axis i CRDER1S = 0.0001219999976456 / random error along direction of WCS axis i CD2_2S = -2.980729959745E-06 / CTM element i_j from FITS axis j to WCS axis i CD2_1S = 0.0001219640034833 / CTM element i_j from FITS axis j to WCS axis i CD1_2S = -0.0001219640034833 / CTM element i_j from FITS axis j to WCS axis i CD1_1S = -2.980729959745E-06 / CTM element i_j from FITS axis j to WCS axis i CRVAL2S = 37.38924789429 / coord value of WCS axis i at ref pixel CRVAL1S = 264.0670166016 / coord value of WCS axis i at ref pixel CRPIX2S = 175 / reference pixel along FITS axis j CRPIX1S = 962 / reference pixel along FITS axis j CUNIT2S = 'deg ' / unit of WCS axis i CUNIT1S = 'deg ' / unit of WCS axis i EQUINOXS= 2000 / date of celestial reference frame RADESYSS= 'FK5 ' / reference system for celestial coordinates CNAME2S = 'Declination ' / name of WCS axis i CNAME1S = 'Right Ascension ' / name of WCS axis i CTYPE2S = 'DEC--TAN ' / type of WCS axis i CTYPE1S = 'RA---TAN ' / type of WCS axis i WCSNAMES= 'Celestial coordinates' / name of WCS SUPBLUE = 0 / Shane line lamp superblue level OWNERID = ' ' / OWNERID for archive data ERASE = 3 / NUMBER OF ERASES SCLEAN = 0 / SERIAL CLEANING CLOCK SELECTION CSMP = 1 / DCS CAP SELECTION PSKIP = 0 / CONTROLS POST-IMAGE SKIPPING PPRERD = 4 / PRE-IMAGE ROWS PFREQ = 2 / PARALLEL CLOCK PERIOD TCPR2 = 4 / POST-IMAGE SERIAL PIXELS BEFORE OVERSCAN NSTIME = 32 / CONTROLS RISING TIME FOR SUBSTRATE VSUBEX = 0 / SUBSTRATE VOLTAGE DURING EXPOSURE VSUBER = 0 / SUBSTRATE VOLTAGE DURING ERASE TCPR1 = 4 / PRE-IMAGE SERIAL PIXELS TSPRD = 40 / SAMPLE TIME IN 0.1 MICROSECOND UNITS TSCLEAN = 40 / SERIAL CLEAN SAMPLE TIME BINSCLN = 0 / BINNING FOR SERIAL CLEAN NHBESP = 32 / BINNING FOR SPECIAL ERASE MERSP = 0 / CONTROLS SPECIAL ERASE MODE ERPBIN = 5 / PARALLEL BINNING DURING ERASE SFREQ = 0 / SERIAL CLOCK PERIOD CSELPRD = 0 / PREREAD CLOCK SELECTION REVERASE= 0 / NUMBER OF REVERSE ERASES BINPRD = 0 / PREREAD SERIAL BINNING PADDC = 0 / PARALLEL CLOCK CAPACITOR SELECTION SADDC = 2 / SERIAL CLOCK CAP SELECTION DECKER_N= 'Spect ' / DECKER POSITION NAME BLFILT_P= 10550 / BLUE FILTER TRAY PHYSICAL POSITION WAVEPT_N= '0.0-deg ' / WAVEPLATE POSITION NAME GRISM_O = 3 / GRISM POSITION ORDINAL NUMBER DECKER_P= -173 / DECKER PHYSICAL POSITION WAVEPT_P= 485 / WAVEPLATE PHYSICAL POSITION LOFILT_O= 1 / LOWER FILTER WHEEL POSITION ORDINAL NUMBER LOFILT_P= 5915 / LOWER FILTER WHEEL PHYSICAL POSITION UPFILT_O= 1 / UPPER FILTER WHEEL POSITION ORDINAL NUMBER UPFILT_P= 2318 / UPPER FILTER WHEEL PHYSICAL POSITION SLIT_P = 3988 / SLIT PHYSICAL POSITION GRATNG_P= -170 / GRATING PHYSICAL POSITION RCOLIM_P= 297 / RED COLLIMATOR PHYSICAL POSITION USFILT_O= -1 / USER FILTER WHEEL POSITION ORDINAL NUMBER USFILT_P= -1593 / USER FILTER WHEEL PHYSICAL POSITION GRISM_P = 21200 / GRISM PHYSICAL POSITION BCOLIM_P= 5555 / BLUE COLLIMATOR PHYSICAL POSITION RDFILT_O= 1 / RED FILTER WHEEL POSITION ORDINAL NUMBER GRATNG_N= '600/5000 ' / GRATING POSITION NAME BLFILT_N= 'Open ' / BLUE FILTER TRAY POSITION NAME BLFILT_O= 1 / BLUE FILTER TRAY POSITION ORDINAL NUMBER OBSERVER= 'Kyle Kabasares ' / OBSERVER NAME GEOMCODE= 6 / READOUT GEOMETRY DSENSOR = 'Fairchild CCD 3041 2Kx2K' / SENSOR DESCRIPTION DNAXIS1 = 2048 / COLUMNS IN SENSOR DNAXIS2 = 2110 / ROWS IN SENSOR UCAMSOFT= '4.08 052011 ' / UCAM SOFTWARE VERSION CAMERAID= 19 / CAMERA ID NUMBER LAMPSTAH= 'off ' / Shane line lamp #H status LAMPSTAG= 'off ' / Shane line lamp #G status LAMPSTAF= 'off ' / Shane line lamp #F status LAMPSTAE= 'off ' / Shane line lamp #E status LAMPSTAD= 'off ' / Shane line lamp #D status LAMPSTAC= 'off ' / Shane line lamp #C status LAMPSTAB= 'off ' / Shane line lamp #B status LAMPSTAA= 'off ' / Shane line lamp #A status LAMPSTA5= 'off ' / Shane flatfield lamp #5 status LAMPSTA4= 'off ' / Shane flatfield lamp #4 status LAMPSTA3= 'off ' / Shane flatfield lamp #3 status LAMPSTA2= 'off ' / Shane flatfield lamp #2 status LAMPSTA1= 'off ' / Shane flatfield lamp #1 status LAMPNAMK= 'Laser ' / Shane line lamp #K name LAMPNAMJ= 'Neon ' / Shane line lamp #J name LAMPNAMI= 'Spare9 ' / Shane line lamp #I name LAMPNAMH= 'Hg-A ' / Shane line lamp #H name LAMPNAMG= 'Hg-Cd ' / Shane line lamp #G name LAMPNAMF= 'He ' / Shane line lamp #F name WAVEPLT = 1 / WAVE PLATE POSITION BSPLIT_O= 'Yin ' / BEAM SPLITTER POSITION RCOLIM_V= 0.3499999940395 / RED COLLIMATOR POSITION IN MM LOFILT_N= 'Open ' / LOWER FILTER WHEEL POSITION NAME BCOLIM_V= 21.84300041199 / BLUE COLLIMATOR POSITION IN MM UPFILT_N= 'Open ' / UPPER FILTER WHEEL POSITION NAME SLIT_N = '0.5 arcsec ' / SLIT POSITION NAME BSPLIT_N= 'd46 ' / BEAM SPLITTER POSITION NAME RDFILT_P= 150 / RED FILTER WHEEL PHYSICAL POSITION USFILT_N= 'WaveplateOut ' / USER FILTER WHEEL POSITION NAME RDFILT_N= 'Open ' / RED FILTER WHEEL POSITION NAME AIRMASS = 1 / AIRMASS AT START OF OBSERVATION TUB = 88.5 / TUB POSITION GRTILT_P= 9953 / GRATING TILT PHYSICAL POSITION GRISM_N = '830/3460 ' / GRISM POSITION NAME GRATNG_O= 2 / GRATING POSITION ORDINAL NUMBER LAMPNAME= 'Dim_Neon ' / Shane line lamp #E name LAMPNAMD= 'Spare_Ar ' / Shane line lamp #D name LAMPNAMC= 'Spare3 ' / Shane line lamp #C name LAMPNAMB= 'Spare2 ' / Shane line lamp #B name LAMPNAMA= 'Spare1 ' / Shane line lamp #A name LAMPNAM5= 'Sup_Blue ' / Shane flatfield lamp #5 name LAMPNAM4= 'Spare4 ' / Shane flatfield lamp #4 name LAMPNAM3= 'Spare3 ' / Shane flatfield lamp #3 name LAMPNAM2= 'Red ' / Shane flatfield lamp #2 name LAMPNAM1= 'Blue ' / Shane flatfield lamp #1 name LAMPSTAK= 'off ' / Shane line lamp #K status LAMPSTAJ= 'off ' / Shane line lamp #J status LAMPSTAI= 'off ' / Shane line lamp #I status HA = '00:00:07.80 ' / HOUR ANGLE DEC = '37:23:21.1 ' / DECLINATION RA = '17:36:22.35 ' / RIGHT ASCENSION TEMPDET = -104.5999984741 / EXPOSURE START DETECTOR TEMPERATURE NCSHIFT = 0 / NUMBER OF CHARGE SHUFFLES RCSHIFT = 0 / NUMBER OF ROWS IN EACH CHARGE SHUFFLE READ-SPD= 80 / DCS READ SPEED DATE-BEG= '2020-10-17T23:55:44.84' / OBSERVATION BEGIN ROVER = 0 / NUMBER OF OVERSCAN ROWS COVER = 32 / NUMBER OF OVERSCAN COLUMNS TEMPDETE= 0 / EXPOSURE END DETECTOR TEMPERATURE TEMPCON = 22.70000076294 / CONTROLLER TEMPERATURE DATE-END= '2020-10-17T23:55:44.86' / OBSERVATION END OBJECT = 'bias ' DATE-OBS= '2020-10-17T23:55:44.84' / observation date (begin) HEATER = 1871 / HEATER VOLTAGE MPP = 1 / MPP STATE OBSTYPE = 0 / IMAGE TYPE GAIN = 1 / DCS GAIN INDEX CKSUMOK = T / cd: CHECKSUMS MATCH CAMCKSUM= 50260 / cd: CAMERA-COMPUTED CHECKSUM SFTCKSUM= 50260 / cd: SOFTWARE-COMPUTED CHECKSUM COMMENT End of cards from other times END