SIMPLE = T / file does conform to FITS standard BITPIX = 16 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1392 / length of data axis 1 NAXIS2 = 1040 / length of data axis 2 EXTEND = T / FITS dataset may contain extensions COMMENT FITS (Flexible Image Transport System) format is defined in 'Astronom COMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H BZERO = 32768 / offset data range to that of unsigned short BSCALE = 1 / default scaling factor FILE = '!/tmp/outp.fits' / Input file original name ORIGIN = 'SAO RAS ' / organization responsible for the data OBSERVAT= 'Special Astrophysical Observatory, Russia' / Observatory name DETECTOR= 'Atik 414ex' / Detector model INSTRUME= '20-sm guide Atik camera' / Acquisition hardware PXSIZE = '6 x 6 ' / Approx. pixel size (um) XPIXSZ = 6.45 / Pixel Size X (um) YPIXSZ = 6.45 / Pixel Size Y (um) IMAGETYP= 'object ' / Image type DATAMIN = 0 / Min pixel value DATAMAX = 65535 / Max pixel value STATMAX = 65535 / Max data value STATMIN = 293 / Min data value STATAVR = 61582.2850823386 / Average data value STATSTD = 2441.01073475475 / Std. of data value TEMP0 = 4.54945373535156 / Camera temperature at exp. start (degr C) TEMP1 = 4.54945373535156 / Camera temperature at exp. end (degr C) CAMTEMP = 277.699453735352 / Average camera temperature (K) EXPTIME = 12.5 / Actual exposition time (sec) DATE-OBS= '2024-03-29T02:34:28' / UTC date of Observation UNIXTIME= 1711679653.81521 / exposition starts at 29/03/2024, 05:34:13 (loc TELESCOP= 'Zeiss-1000' / Telescope name START = '05:34:13' / Measurement start time (hh:mm:ss, local) BINNING = '1x1 ' / Binning mode IMSCALE = '0.435 x 0.435' / image scale ("/Pix x "/Pix) PROG-ID = 'Monitoring of radio-bright blazars' / Observational program identifi AUTHOR = 'Spiridonova O.I.' / Author of observational program OBSERVER= 'Komarov V.V.' / Observers team OBJECT = 'BF6' / Catalogue name of Object DATE = '2024-03-29T02:34:33' / Creation date (YYYY-MM-DDThh:mm:ss, UTC) LST = 64098.530 / [sec] Local apparent sidereal time (17:48:18.5 RA = 291.6083333 / [degrees] Right Ascension (19:26:26.000) DEC = 13.8383333 / [degrees] Declination (+13:50:18.00) EQUINOX = 2000.0000000 / Equinox of equatorial coordinates RA-APP = 291.8853084 / [degrees] Apparent R.A. (19:27:32.474) DEC-APP = 13.8824549 / [degrees] Apparent Decl. (+13:52:56.84) MJD-OBS = 60398.1073333 / Modified Julian Date of observation HA = 335.1968990 / [degrees] Telescope HourAngle (22:20:47.256) A = 316.8629687 / Telescope azimuth (degr, from S, W-positive) Z = 36.5548291 / [degrees] Telescope zenith distance PARANGLE= -30.637 / [degrees] parallactic angle ROTANGLE= -6.650 / [degrees] camera image rotation angle TELFOCUS= 'Cassegrain' / name of telescope observation focus TELSTATE= 'Tracking' / Zeiss TCS current state TELFLIP = 'No' / Telescope meridian flip to reversal mode OUTTEMP = 5.8 / [C] outside temperature PRESSURE= 593.6 / [mmHg] atmospheric pressure WIND = 0.0 / [m/s] wind HUMIDITY= 18.7 / [%] relative humidity TELHACOR= 0.00 / [sec] HA index(encoder) correction TELDECOR= -20.0 / [arcsec] Decl index(encoder) correction HDWHACOR= -0.25 / [sec] "E-W" collimation(opt.axis) correction HDWDECOR= -10.0 / [arcsec] "N-S" collimation(opt.axis) correctio WCSAXES = 2 / Number of WCS axes CTYPE1 = 'RA---TAN' / RA-Gnomic projection CUNIT1 = 'deg' / RA units - degrees CRVAL1 = 291.6094061 / RA of reference pixel CRPIX1 = 670.0 / X reference pixel CTYPE2 = 'DEC--TAN' / Decl-Gnomic projection CUNIT2 = 'deg' / Decl units - degrees CRVAL2 = 13.8300000 / Decl of reference pixel CRPIX2 = 400.0 / Y reference pixel RADECSYS= 'FK5' / using FK5 coordinates system CD1_1 = 0.0001200756 / rotation matrix coefficient [1,1] CD1_2 = -0.0000139994 / rotation matrix coefficient [1,2] CD2_1 = 0.0000139994 / rotation matrix coefficient [2,1] CD2_2 = 0.0001200756 / rotation matrix coefficient [2,2] END