SIMPLE = T /Dummy Created by MWRFITS v1.11 BITPIX = 8 /Dummy primary header created by MWRFITS NAXIS = 0 /No data is associated with this header EXTEND = T /Extensions may (will!) be present END XTENSION= 'BINTABLE' /Binary table written by MWRFITS v1.11 BITPIX = 8 /Required value NAXIS = 2 /Required value NAXIS1 = 137 /Number of bytes per row NAXIS2 = 109 /Number of rows PCOUNT = 0 /Normally 0 (no varying arrays) GCOUNT = 1 /Required value TFIELDS = 18 /Number of columns in table COMMENT COMMENT *** End of mandatory fields *** COMMENT TFORM16 = 'D ' / TFORM17 = 'D ' / TFORM18 = 'D ' / TTYPE16 = 'CAL_MAG_ERR' / TTYPE17 = 'CAL_FLUX' / TTYPE18 = 'CAL_FLUX_ERR' / COMMENT COMMENT *** End of mandatory fields *** COMMENT EXTEND = T / File may contain extensions ORIGIN = 'NOAO-IRAF FITS Image Kernel July 2003' / FITS file originator OBJECT = 'P161-D ' / Name of the object observed DATE = '2016-08-02T21:34:26' / Date FITS file was generated IRAF-TLM= '2016-08-02T21:34:23' / Time of last modification COMMENT COMMENT *** Column names *** COMMENT COMMENT COMMENT *** Column names *** COMMENT TTYPE1 = 'ID ' / TTYPE2 = 'RA ' / TTYPE3 = 'DEC ' / TTYPE4 = 'RA_WHIRC_SE' / TTYPE5 = 'DEC_WHIRC_SE' / TTYPE6 = 'X ' / TTYPE7 = 'Y ' / TTYPE8 = 'FWHM ' / TTYPE9 = 'INST_MAG' / TTYPE10 = 'INST_MAG_ERR' / TTYPE11 = 'INST_MAG_SE' / TTYPE12 = 'INST_MAG_SE_ERR' / TTYPE13 = 'FLUX ' / TTYPE14 = 'FLUX_ERR' / TTYPE15 = 'CAL_MAG ' / COMMENT COMMENT *** Column formats *** COMMENT COMMENT COMMENT *** Column formats *** COMMENT TFORM1 = '21A ' / TFORM2 = 'D ' / TFORM3 = 'D ' / TFORM4 = 'D ' / TFORM5 = 'E ' / TFORM6 = 'E ' / TFORM7 = 'E ' / TFORM8 = 'D ' / TFORM9 = 'D ' / TFORM10 = 'D ' / TFORM11 = 'E ' / TFORM12 = 'E ' / TFORM13 = 'D ' / TFORM14 = 'D ' / TFORM15 = 'D ' / COMMENT FITS (Flexible Image Transport System) format defined in Astronomy andCOMMENT = '----------------- ' / COMMENT Contact the NASA Science Office of Standards and Technology for the COMMENT FITS Definition document #100 and other FITS information. CREATOR = 'Linux generic CCD control' / Data-taking program OBSERVAT= 'KPNO ' / Originating Observatory TELESCOP= 'WIYN ' / Specific system LATITUDE= '31:57:11.78' / [deg] Observatory Latitude LONGITUD= '07:26:27.97' / [deg west] Observatory Longtiude INSTRUME= 'WHIRC ' / Instrument DETECTOR= 'VIRGO1 ' / CCD Detector ID INSTID = 'whirc ' / Instrument ID Code OBSERVER= 'Weyant ' / Observer(s) IMGTYPE = 'object ' / Image type code EXPTIME = 1.0000000000000E+01 / Exposure time in secs TIMESYS = 'UTC ' / Time System is UTC DATE-OBS= '2013-10-19T11:11:20.0' / UTC epoch TIME-OBS= '04:11:20' / Time of start of observation MJD-OBS = 56584.466424 / MJD at start of obs JD = 2456584.96642 / Julian Date at start of obs CCDTEMP = 0.0 / [C] CCD temperature at readout CCDXBIN = 1 / Column Binning on detector CCDYBIN = 1 / Row Binning on detector HDR_REV = '2.00 20-Jun-2006 ' / Header-Rev LSTHDR = '05:37:37.555965516' / local sidereal time ELMAP = '67:06:53.85678444 ' / mapper elevation AZMAP = '37:48:56.426094 ' / mapper azimuth TRACK = 'Tracking ' / tracking COORDS = 'Helio. mean FK5 ' / coordinate system TARGRA = '07:00:51.99 ' / Telescope target RA TARGDEC = '48:29:23.96 ' / Telescope target DEC RA = '+07:00:49.131 ' / Telescope RA DEC = '+48:28:52.518 ' / Telescope DEC RAOFFST = '23:59:56.98 ' / Telescope RA offset DECOFFST= '-00:00:29.90 ' / Telescope DEC offset PV2_1 = 0.0000000000000E+00 / Projection parameter 1 CRPIX2 = 1637.0544109829 / Reference Pixel in Y CD1_1 = -2.4264771820231E-8 / Degrees / Pixel CRVAL1 = 105.201798483 / R.A. (degrees) of reference pixel EQUINOX = 2000. / Equinox CD2_1 = -2.6895576313859E-5 / Degrees / Pixel CD1_2 = -2.7875287249889E-5 / Degrees / Pixel LONPOLE = 1.8000000000000E+02 / Native Longitude of Celestial Plane CRVAL2 = 48.4808049056 / Declination of reference pixel CD2_2 = 3.75665340586363E-8 / Degrees / Pixel LATPOLE = 0.0000000000000E+00 / Celestial Latitude of native pole HISTORY = 'Jan-18-2008-19:51:53' /WCS parameters updated CTYPE1 = 'RA---TAN ' / Coordinate Type CRPIX1 = 1682.39700395927 / Reference Pixel in X CTYPE2 = 'DEC--TAN ' / Coordinate Type ZD = '22:53:16.60448328 ' / zenith distance AIRMASS = 1.0852850000000E+00 / airmass at start of exposure ROTANGLE= '-298:43:15.39 ' / MNIR rotator angle, degrees CW from N ROTOFF = '00:00:00.00 ' / MNIR rotator angle offset FOCUS = 7.2828125000000E+03 / Telescope focus (microns) FILTER1 = 'J ' / WHIRC filter 1 name FILTER2 = 'OPEN ' / WHIRC filter 2 name ROTPORT = 'mnir ' / Tertiary fold position FOLDPOS = 'mnir ' / Tertiary port selection UTSHUT = '04:11:20 ' / UT of shutter close IMAGETYP= 'object ' / Type of picture (object, dark, etc.) RECID = 'whirc.131019.111139' / archive ID for observation DATATYP = '+32.0000000000000000' FINPXL = '+4.0000000000000000' RAWPXL = '+4.0000000000000000' OUTPUTS = '+16.0000000000000000' IMGCOLS = '+2144.0000000000000000' IMGROWS = '+2050.0000000000000000' PXLCOLS = '+2144.0000000000000000' PXLROWS = '+2050.0000000000000000' REFCOLS = '+0.0000000000000000' ARRTYPE = ' ' ARRID = ' ' NIMGS = '+498.0000000000000000' IMGFILE = 'Obj ' IMGDIR = '/data2 ' EXPID = '+0.0000000000000000' / Exposure identifier EXPVECT = '+65.0000000000000000' / Exposure vector EXPMODE = '+2.0000000000000000' / Exposure mode LABSYS = '+2.0000000000000000' / Lab system PROCMOD = '+0.0000000000000000' / Processing mode CAPTMOD = '+0.0000000000000000' / Capture mode FRAMES = '+2.0000000000000000' / Total frames CTCPERD = '+70.0000000000000000' / CTC Period FRMSPRD = '+2.0000000000000000' / Frames Per Read Out DIGAVGS = '+4.0000000000000000' / Digital Averages COADDS = '+1.0000000000000000' FOWLER = '+1.0000000000000000' / Fowler Samples VPUC = '+3.5000000000000000' / Bias voltage vpUc VNUC = '+0.9608793767852849' / Bias voltage vnUc VNOUT = '+2.4566429576475692' / Bias voltage vnOut IIDLE = '-2.2562459625318563' / Bias *voltage* iIdle ISLEW = '-3.1261956099547903' / Bias *voltage* iSlew VCAS = '+2.9827915987522484' / Bias voltage vCas VHIROWEN= '+4.9518668343082055' / Bias voltage vHiRowEn VPD = '+3.9511898563252648' / Bias voltage vpD VLORESET= '-0.0369725380377571' / Bias voltage vloReset VLOROWEN= '+0.9660505152264128' / Bias voltage vlowRowEn VDETCOM = '+0.9705882352941176' / Bias voltage vdetCom VRSTUC = '+0.2647058823529412' / Bias voltage vrstUc IDPFNAME= 'whirc_DefaultIdp.mod' IDPFDIR = '/Monsoon/cfg/_whirc' EXPFNAME= 'whirc_power_off.mod' EXPFDIR = '/Monsoon/cfg/_whirc' MODEFILE= 'whirc_DefaultSetup.mod' MODEDIR = '/Monsoon/cfg/_whirc' ARRFILE = '.whirc_power_on.mod' ARRDIR = '/Monsoon/cfg/_whirc' MCBPIX = '+65535.0000000000000000' MCBMSG = '+65535.0000000000000000' MCBCNTRL= '+1.0000000000000000' MCBSTAT = '+5537.0000000000000000' MCBCLOCK= '+63.0000000000000000' ACQSTAT = '+0.0000000000000000' ACQMODE = '+0.0000000000000000' ACQPRIOR= '+0.0000000000000000' ACQDIGAV= '+32.0000000000000000' ACQCNTRL= '+34.0000000000000000' ACQSEL0 = '+15.0000000000000000' ACQSEL1 = '+14.0000000000000000' ACQSEL2 = '+13.0000000000000000' ACQSEL3 = '+12.0000000000000000' ACQSEL4 = '+11.0000000000000000' ACQSEL5 = '+10.0000000000000000' ACQSEL6 = '+9.0000000000000000' ACQSEL7 = '+8.0000000000000000' ACQSEL8 = '+7.0000000000000000' ACQSEL9 = '+6.0000000000000000' ACQSEL10= '+5.0000000000000000' ACQSEL11= '+4.0000000000000000' ACQSEL12= '+3.0000000000000000' ACQSEL13= '+2.0000000000000000' ACQSEL14= '+1.0000000000000000' ACQSEL15= '+0.0000000000000000' IIDLEI = '+4078.0000000000000000' ISLEWI = '+4065.0000000000000000' VCASI = '+7.0000000000000000' VUNKWNI = '+4089.0000000000000000' VHIROWI = '+17.0000000000000000' VHIRSTI = '+12.0000000000000000' VPDI = '+41.0000000000000000' VLORSTI = '+4083.0000000000000000' VLOROWI = '+4094.0000000000000000' VNOUTI = '+3766.0000000000000000' VNUCI = '+4047.0000000000000000' VDETCOMI= '+4095.0000000000000000' VRSTUCI = '+4091.0000000000000000' VPUCI = '+73.0000000000000000' IIDLETV = '-2.2696940774844885' ISLEWTV = '-3.1182105488125993' VCASTV = '+2.9907120889290502' VUNKNWNV= '-0.0455194731373613' VHIROWV = '+4.9701694980676470' VHIRSTV = '+3.9759466638887444' VPDTV = '+3.9575348203746272' VLORSTTV= '-0.0369838229293072' VLOROWTV= '+0.9597889605359813' VNOUTTV = '+2.4970451176140429' VNUCTV = '+0.9638333997428384' VDETCMTV= '+0.9920672638705507' VRSTUCTV= '+0.2709134353512144' VPUCTV = '+3.4840543824207018' F1SWERR = 'ok ' / WHIRC filter 1 software error status F1STAT = 'ok ' / WHIRC filter 1 max-410 motor controller status F1STEPS = '-1933 ' / WHIRC filter 1 wheel angle motor steps F1ANGLE = '-90 ' / WHIRC filter 1 wheel angle degrees F1GAUSS = '-486.1 ' / WHIRC filter 1 magfield gauss reading G F1DETENT= 'NONE ' / WHIRC filter 1 magfield position: HOME, OTHER, F1LAMBDA= '1.25 ' / WHIRC filter 1 wavelength (microns) F1DLL = '0.13 ' / WHIRC filter 1 d-lambda / lambda F1FWHM = '0.16 ' / WHIRC filter 1 full width half max (microns) F2SWERR = 'ok ' / WHIRC filter 2 software error status F2STAT = 'ok ' / WHIRC filter 2 max-410 motor controller status F2STEPS = '0 ' / WHIRC filter 2 wheel angle motor steps F2ANGLE = '0 ' / WHIRC filter 2 wheel angle degrees F2GAUSS = '1370.1 ' / WHIRC filter 2 magfield gauss reading G F2DETENT= 'HOME ' / WHIRC filter 2 magfield position: HOME, OTHER, F2LAMBDA= '1.5 ' / WHIRC filter 2 wavelength (microns) F2DLL = '1000.0 ' / WHIRC filter 2 d-lambda / lambda F2FWHM = '1000.0 ' / WHIRC filter 2 full width half max (microns) TVIRGO = '0074.720 ' / WHIRC temperature VIRGO, K TDETECT = '0078.497 ' / WHIRC temperature alt-VIRGO, K TCAMERA = '0076.471 ' / WHIRC temperature camera K TMOTRPLT= '0076.707 ' / WHIRC temperature filter-wheel-plate K TCLDPLT = '0076.653 ' / WHIRC temperature cold-plate K TOBENCH = '0076.811 ' / WHIRC temperature optical-bench K TRDSHLD = '0088.173 ' / WHIRC temperature rad-shield K TCLLMAT = '0505.000 ' / WHIRC temperature collimating K TEMPF1 = '0076.907 ' / WHIRC temperature filter wheel 1 K TEMPF2 = '0076.769 ' / WHIRC temperature filter wheel 2 K TMSTATE = 'STABLE ' / WHIRC temperature controller state TMSWERR = 'ok ' / WHIRC temp control s/w error TMSETPT = '0078.500 ' / WHIRC temperature setpoint K TMCRATE = '0002.000 ' / WHIRC temperature ramp rate K/min TMTOLER = '0001.000 ' / WHIRC temperature tolerance K TMPERROR= '-000.003 ' / WHIRC temperature vs. setpoint error K TMPID_P = '0150.000 ' / WHIRC temp control PID P-coefficient TMPID_I = '0030.000 ' / WHIRC temp control PID I-coefficient TMPID_D = '0025.000 ' / WHIRC temp control PID D-coefficient TMHTRPOW= '0000.063 ' / WHIRC heater power Watts TMMAXPOW= '0062.800 ' / WHIRC heater power limit Watts TMHTRRNG= 'x1.0 ' / WHIRC heater range (power limit gain factor) TMMAXAMP= '2.0A ' / WHIRC heater current limit Amps OBSID = 'wiyn.whirc.20131019T111139' / Observation-ID PROPID = '"12B-0500" ' / observing-proposal-ID MOPSEQ = 499 / MOPINFO-sequence MOPDATE = 'Oct 19 04:11:39 ' / MOPINFO-timestamp = DTSITE = 'kp ' / observatory location DTTELESC= 'wiyn ' / telescope identifier DTINSTRU= 'whirc ' / instrument identifier DTCALDAT= '2013-10-18 ' / calendar date from observing schedule ODATEOBS= ' ' / previous DATE-OBS DTUTC = '2013-10-19T11:11:40' / post exposure UTC epoch from DTS DTOBSERV= 'NOAO ' / scheduling institution DTPROPID= '2012B-0500 ' / observing proposal ID DTPI = 'Michael Wood-Vasey' / Principal Investigator DTPIAFFL= 'University of Pittsburgh' / PI affiliation DTTITLE = 'Type Ia Supernovae in the Near-Infrared: A Three-Year Survey toward' DTCOPYRI= 'AURA ' / copyright holder of data DTACQUIS= 'dust.kpno.noao.edu' / host name of data acquisition computer DTACCOUN= 'daemon ' / observing account name DTACQNAM= '/data/data/18_Oct_13/Obj_178.fits' / file name supplied at telescopDTNSANAM= 'kp1834520.fits ' / file name in NOAO Science Archive DT_RTNAM= 'kww_131019_111140_ori' / NSA root name DTSTATUS= 'done ' / data transport status SB_HOST = 'dtskp.kpno.noao.edu' / iSTB client host SB_ACCOU= 'cache ' / iSTB client user account SB_SITE = 'kp ' / iSTB host site SB_LOCAL= 'kp ' / locale of iSTB daemon SB_DIR1 = '20131018 ' / level 1 directory in NSA DS SB_DIR2 = 'wiyn ' / level 2 directory in NSA DS SB_DIR3 = '2012B-0500 ' / level 3 directory in NSA DS SB_RECNO= 1834520 / iSTB sequence number SB_ID = 'kp1834520 ' / unique iSTB identifier SB_NAME = 'kp1834520.fits ' / name assigned by iSTB SB_RTNAM= 'kww_131019_111140_ori' / NSA root name RMCOUNT = 1 / remediation counter RECNO = 1834520 / NOAO Science Archive sequence number CHECKSUM= '9PXXHMUU9MUUEMUU' / HDU checksum updated 2017-10-25T17:22:37 DATASUM = '2824305358' / data unit checksum updated 2017-10-25T17:22:37 RMPROPID= 'done ' / remediated proposal ID RMCALDAT= 'done ' / remediated calendar date NONLCORR= 'done ' / non-linearity correction done? X_USEAS = 'both ' X_FOROBJ= 'P161-D_B' X_DITPOS= 0 BGLEVEL = 82.00088500976562 / Mean background level (counts) IBGLEVEL= 0.01219499033310321 / Inverse of mean background level (1/counts) PL_SKYF = '03.sky/sky___P161-D_B__J_OPEN_DP0.fits' / Sky frame PL_FLATF= '02.flats/response__J_OPEN.fits' / Flat field frame WCSDIM = 2 LTM1_1 = 1. LTM2_2 = 1. WAT0_001= 'system=image' WAT1_001= 'wtype=tan axtype=ra' WAT2_001= 'wtype=tan axtype=dec' ALIDX = 1.619100000000003 / X offset applied to align to reference image ALIDXERR= 2.198941783434329 / X offset uncertainty ALIDY = -5.529700000000048 / Y offset applied to align to reference image ALIDYERR= 0.4146288291418702 / Y offset uncertainty ALINSTAR= 15 / Number of stars used in alignment. PROCID = 'wiyn.whirc.20131019T111139V1' PROCID01= 'wiyn.whirc.20131019T111139' PROCID02= 'wiyn.whirc.20131019T111206' PROCID03= 'wiyn.whirc.20131019T111234' PROCID04= 'wiyn.whirc.20131019T111300' PROCID05= 'wiyn.whirc.20131019T111327' PROCID06= 'wiyn.whirc.20131019T111353' PROCID07= 'wiyn.whirc.20131019T111420' PROCID08= 'wiyn.whirc.20131019T111446' PROCID09= 'wiyn.whirc.20131019T111513' IMCMB001= 'Obj_178.wreg.fits' IMCMB002= 'Obj_179.wreg.fits' IMCMB003= 'Obj_180.wreg.fits' IMCMB004= 'Obj_181.wreg.fits' IMCMB005= 'Obj_182.wreg.fits' IMCMB006= 'Obj_183.wreg.fits' IMCMB007= 'Obj_184.wreg.fits' IMCMB008= 'Obj_185.wreg.fits' IMCMB009= 'Obj_186.wreg.fits' NCOMBINE= 9 ZP_FRAME= 25.24372457820539 ZP_ERROR= 0.03120826543590327 ZEROPNT = 22.74372457820539 HISTORY Photometry performed in IDL using 'aper' DAOPHOT equivalent. FWHM = 5.15271139145 /Median FWHM from 2D gaussian fits to stars. SKYRAD1 = 41.0000 /Sky annulus (inner radius) used in photometry SKYRAD2 = 50.0000 /Sky annulus (outer radius) used in photometry GAIN = 30.6000 /e-/counts: raw gain * num images in stack EXTNAME = 'PHOTCAT ' / APERIDX = 2 / Index in APER_RADII of best SNR aperture APERRAD = 4.0 / Radius of best SNR aperture in pixels. APERCORR= -0.5357797622680665 / Mag to add to aper mag at APERRAD. 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