diff --git a/ObservationSim/Config/Header/csst_msc_l0_ms.fits b/ObservationSim/Config/Header/csst_msc_l0_ms.fits index 59f2bf824e6ea47d3aede078d8ae0a9e4a771ddd..3866cdb8f45b211e837aa7746513470cc900d362 100644 --- a/ObservationSim/Config/Header/csst_msc_l0_ms.fits +++ b/ObservationSim/Config/Header/csst_msc_l0_ms.fits @@ -1,4 +1,4 @@ -SIMPLE = T / conforms to FITS standard BITPIX = 8 / array data type NAXIS = 0 / number of array dimensions EXTEND = T NEXTEND = 1 / number of array dimensions DATE = '2024-08-17T06:05:12.0' / written date (yyyy-mm-ddThh:mm:ss.s) FILENAME= 'CSST_MSC_MS_SCI_20240817060512_20240817060742_10160100000_09_L0_V01' FILETYPE= 'SCI ' / observation type TELESCOP= 'CSST ' / telescope name INSTRUME= 'MSC ' / instrument name RADECSYS= 'ICRS ' / coordinate system of the object EQUINOX = 2000.0 FITSSWV = '2.1.0_20231208_wcl-5' / FITS creating software version COMMENT ========================================================================COMMENT OBJECT INFORMATION COMMENT ========================================================================OBJECT = '60000000' / object name TARGET = '161953.0+395345' / target name (hhmmss.s+ddmmss) OBSID = '10160100000' / observation ID RA_OBJ = 244.972773 / object RA (deg) DEC_OBJ = 39.895901 / object Dec (deg) COMMENT ========================================================================COMMENT TELESCOPE INFORMATION COMMENT ========================================================================REFFRAME= 'CSSTGSC-1.0' / guiding catalog version DATE-OBS= '2024-08-17T06:05:12.0' / observation date (yyyy-mm-ddThh:mm:ss.s) SATESWV = '0001 ' / satellite software version EXPSTART= 60539.25361 / exposure start time (MJD) CABSTART= 60539.25361 / first cabin time after exposure start (MJD) SUNANGL0= 50.0 / angle between the Sun and opt axis at CABSTART MOONANG0= 30.0 / angle between the Moon and opt axis at CABSTARTTEL_ALT0= 20.0 / angle between opt axis and Elimb at CABSTART POS_ANG0= 20.0 / angle between y axis and North Pole at CABSTARTPOSI0_X = -2218.3663 / orbital position in X at CABSTART (km) POSI0_Y = -5817.8559 / orbital position in Y at CABSTART (km) POSI0_Z = 2597.9467 / orbital position in Z at CABSTART (km) VELO0_X = 5.058199026407237 / orbital velocity in X at CABSTART (km/s) VELO0_Y = -3.85818799871231 / orbital velocity in Y at CABSTART (km/s) VELO0_Z = -4.322908628205369 / orbital velocity in Z at CABSTART (km/s) EULER0_1= 0.0 / Euler angle 1 at CABSTART (deg) EULER0_2= 0.0 / Euler angle 2 at CABSTART (deg) EULER0_3= 0.0 / Euler angle 3 at CABSTART (deg) RA_PNT0 = 244.972773 / pointing RA at CABSTART (deg) DEC_PNT0= 39.895901 / pointing Dec at CABSTART (deg) EXPEND = 60539.25535 / exposure end time (MJD) CABEND = 60539.25535 / first cabin time after exposure end (MJD) SUNANGL1= 50.0 / angle between the Sun and opt axis at CABEND MOONANG1= 30.0 / angle between the Moon and opt axis at CABEND TEL_ALT1= 20.0 / angle between opt axis and Elimb at CABEND POS_ANG1= 20.0 / angle between y axis and North Pole at CABEND POSI1_X = 0.0 / orbital position in X at CABEND (km) POSI1_Y = 0.0 / orbital position in Y at CABEND (km) POSI1_Z = 0.0 / orbital position in Z at CABEND (km) VELO1_X = 0.0 / orbital velocity in X at CABEND (km/s) VELO1_Y = 0.0 / orbital velocity in Y at CABEND (km/s) VELO1_Z = 0.0 / orbital velocity in Z at CABEND (km/s) EULER1_1= 0.0 / Euler angle 1 at CABEND (deg) EULER1_2= 0.0 / Euler angle 2 at CABEND (deg) EULER1_3= 0.0 / Euler angle 3 at CABEND (deg) RA_PNT1 = 244.972773 / pointing RA at CABEND (deg) DEC_PNT1= 39.895901 / pointing Dec at CABEND (deg) EPOCH = 2024.6 / equinox of pointing RA and Dec EXPTIME = 150.0 / exposure time (s) COMMENT ========================================================================COMMENT VERIFICATION INFORMATION COMMENT ========================================================================CHECKSUM= 'DgKkFeHiDeHiDeHi' / HDU checksum updated 2024-03-08T15:40:19 DATASUM = '0 ' / data unit checksum updated 2024-03-08T15:40:19 END XTENSION= 'IMAGE ' / image extension BITPIX = 16 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 20000 NAXIS2 = 4700 PCOUNT = 0 / number of parameters GCOUNT = 1 / number of groups BSCALE = 1 BZERO = 32768 EXTNAME = 'IMAGE ' EXTVER = 1 BUNIT = 'ADU ' / physical unit of array values COMMENT ========================================================================COMMENT DETECTOR INFORMATION COMMENT ========================================================================CAMERA = 'MS' / camera of main survey DETSN = '12345678' / detector serial number DETNAME = 'CCD' / detector type DETTEMP1= 173.0 / detector temperature at EXPSTART (K) DETTEMP2= 173.0 / detector temperature at EXPEND (K) DETTEMP3= 173.0 / detector temperature at READT1 (K) DETSIZE = '9560x9264' / detector size DATASECT= '9216x9232' / data section PIXSCAL1= 0.074 / pixel scale for axis 1 (arcsec/pixel) PIXSCAL2= 0.074 / pixel scale for axis 2 (arcsec/pixel) PIXSIZE1= 10 / pixel size for axis 1 (micron) PIXSIZE2= 10 / pixel size for axis 2 (micron) CHIPID = '09 ' / chip ID CHIPLABL= 'r-1 ' / chip label FILTER = 'r ' / filter name NCHANNEL= 16 / number of readout channels PSCAN1 = 27 / horizontal prescan width, per readout channel PSCAN2 = 8 / vertical prescan width, per readout channel OSCAN1 = 16 / horizontal overscan width, per readout channel OSCAN2 = 16 / vertical overscan width, per readout channel COMMENT ========================================================================COMMENT WORLD COORDINATE SYSTEM INFORMATION COMMENT ========================================================================WCSAXES = 2 / number of WCS axes CRPIX1 = 4600.694649742984 / x-coordinate of reference pixel CRPIX2 = 4604.383757040574 / y-coordinate of reference pixel CRVAL1 = 244.5872723135913 / value of reference pixel on axis 1 CRVAL2 = 39.68195466168969 / value of reference pixel on axis 2 CTYPE1 = 'RA---TAN' / type of RA WCS projection CTYPE2 = 'DEC--TAN' / type of Dec WCS projection CD1_1 = -6.8096767434962E-06 / transformation matrix element (deg/pix) CD1_2 = -1.9394088718019E-05 / transformation matrix element (deg/pix) CD2_1 = -1.9394079613547E-05 / transformation matrix element (deg/pix) CD2_2 = 6.81009530128767E-06 / transformation matrix element (deg/pix) COMMENT ========================================================================COMMENT READOUT INFORMATION COMMENT ========================================================================GAINLVL = '01' / gain level GAIN01 = 1.089977689498424 / gain (e-/ADU, channel 01) GAIN02 = 1.099175619835018 / gain (e-/ADU, channel 02) GAIN03 = 1.107649165474623 / gain (e-/ADU, channel 03) GAIN04 = 1.121722214644728 / gain (e-/ADU, channel 04) GAIN05 = 1.081220797968546 / gain (e-/ADU, channel 05) GAIN06 = 1.09456272850753 / gain (e-/ADU, channel 06) GAIN07 = 1.111430472148367 / gain (e-/ADU, channel 07) GAIN08 = 1.105606424366627 / gain (e-/ADU, channel 08) GAIN09 = 1.101874970320761 / gain (e-/ADU, channel 09) GAIN10 = 1.085064046871988 / gain (e-/ADU, channel 10) GAIN11 = 1.12218772525153 / gain (e-/ADU, channel 11) GAIN12 = 1.114934178226512 / gain (e-/ADU, channel 12) GAIN13 = 1.119336504852553 / gain (e-/ADU, channel 13) GAIN14 = 1.093036190194986 / gain (e-/ADU, channel 14) GAIN15 = 1.084334798104931 / gain (e-/ADU, channel 15) GAIN16 = 1.090894538052644 / gain (e-/ADU, channel 16) RON01 = 5.0 / readout noise (e-, channel 01) RON02 = 5.0 / readout noise (e-, channel 02) RON03 = 5.0 / readout noise (e-, channel 03) RON04 = 5.0 / readout noise (e-, channel 04) RON05 = 5.0 / readout noise (e-, channel 05) RON06 = 5.0 / readout noise (e-, channel 06) RON07 = 5.0 / readout noise (e-, channel 07) RON08 = 5.0 / readout noise (e-, channel 08) RON09 = 5.0 / readout noise (e-, channel 09) RON10 = 5.0 / readout noise (e-, channel 10) RON11 = 5.0 / readout noise (e-, channel 11) RON12 = 5.0 / readout noise (e-, channel 12) RON13 = 5.0 / readout noise (e-, channel 13) RON14 = 5.0 / readout noise (e-, channel 14) RON15 = 5.0 / readout noise (e-, channel 15) RON16 = 5.0 / readout noise (e-, channel 16) ROTIME0 = '2024-08-17T06:07:42.1' / readout start time (UTC) ROTIME1 = '2024-08-17T06:08:22.1' / readout end time (UTC) ROSPEED = 10.0 / readout speed (MHz) EXPTIME = 150.0 / exposure time (s) DARKTIME= 152.0 / dark current time (s) COMMENT ========================================================================COMMENT SHUTTER INFORMATION COMMENT ========================================================================SHTSTAT = T / shutter status, T=open, F=close SHTOPEN0= '2024-08-17T06:07:42.1' / shutter open time (start, UTC) SHTOPEN1= '2024-08-17T06:07:42.1' / shutter open time (end, UTC) SHTCLOS0= '2024-08-17T06:07:42.1' / shutter close time (start, UTC) SHTCLOS1= '2024-08-17T06:07:42.1' / shutter close time (end, UTC) COMMENT ========================================================================COMMENT LED INFORMATION COMMENT ========================================================================LEDFLAG = 'main ' / main/backup LED LEDSTAT = '00000000000000' / LED status LEDT01 = 0.0 / LED01 flash time (ms) LEDT02 = 0.0 / LED02 flash time (ms) LEDT03 = 0.0 / LED03 flash time (ms) LEDT04 = 0.0 / LED04 flash time (ms) LEDT05 = 0.0 / LED05 flash time (ms) LEDT06 = 0.0 / LED06 flash time (ms) LEDT07 = 0.0 / LED07 flash time (ms) LEDT08 = 0.0 / LED08 flash time (ms) LEDT09 = 0.0 / LED09 flash time (ms) LEDT10 = 0.0 / LED10 flash time (ms) LEDT11 = 0.0 / LED11 flash time (ms) LEDT12 = 0.0 / LED12 flash time (ms) LEDT13 = 0.0 / LED13 flash time (ms) LEDT14 = 0.0 / LED14 flash time (ms) LEDTEMP = 173.0 / LED temperature (K) COMMENT ========================================================================COMMENT VERIFICATION INFORMATION COMMENT ========================================================================CHECKSUM= 'ZGA4c941ZG91b991' / HDU checksum updated 2024-03-08T15:40:20 DATASUM = '3747953988' / data unit checksum updated 2024-03-08T15:40:20 END ŁāŁ́́ȁŁǁȁÁÁǁȁÁǁ́ÁˁʁځӁفށׁ݁ށӁہ߁݁ہ߁݁Ӂׁ߁؁܁܁߁فځہہށځӁ݁܁߁ځځ܁ށہ߁ځށׁׁ݁݁ہՁ܁ҁՁځ߁܁ށ݁فށށށہׁ܁؁݁ځށ߁فށفځ߁ցԁ݁߁ՁӁׁց݁߁Ё߁݁݁ځށށՁҁց с݁߁ہށف߁݁܁Ձށ܁؁߁߁߁ځށӁځفҁށށ܁݁Ӂԁفہ܁܁ׁ܁ց݁ف؁܁ہ݁܁߁ցہ߁ށ݁݁ҁށہہ܁߁߁܁؁܁فځ߁ׁށ؁݁߁ށՁځف݁؁߁ځ݁ԁہށԁ؁فځ؁ށځفׁ߁݁ہہ݁߁ځہ܁؁ځށӁف݁߁݁فׁ߁فށ܁ׁځ݁܁ށЁ؁ށہہՁ؁Ձ܁܁ށ݁ځ߁ہ؁ځՁށ؂xہہځفށځ܁؁؁ځځ݁ށځՁځ߁݁݁ށށہ݁߁߁؁ҁ߁ށԁށށہށ݁߁ׁށ݁ށ߁ځ߁؁߁܁ށ܁ׁ݁߁ہՁ݁ہށف߁؁܁ށށӁρ؁ށ؁݁ځӁہ݁ہہځہف߁ށ؁ځ߁݁ށځف߁ׁ߁ׁ؁ÁŁāǁāÁŁ́ÁƁˁƁāʁǁŁāŁŁÁŁŁǁɁƁɁ́ȁƁɁɁŁƁȁŁЁˁāȁāȁāʁƁȁŁÁŁƁȁāɁǁɁ́Ё́ǁǁ́ʁāʁǁŁʁɁсɁʁЁ́āˁЁ߁ށځށ݁Ձ߁߁߁߁ށށ܁ށ݁ہ܁ށ߁߁ف߁ہׁ݁ԁځ߁ ށہ܁݁ށ܁ց߁ށށہ߁ށ؁߁ށށՁ߁ځ܁߁݁݁ށށ߁߁܁ށ݁ف܁߁݁݁ށށہށ܁؁ׁ݁߁ށ݁ށԁ܁܁߁ׁ߁܁߁܁߁ցށ܁݁فށށށׁׁ݁܁݁ہہ߁ہׁ߁߁܁$ށށ݁߁ށ؁߁߁ށفׁށ܁݁܁ځ߁؁߁ځc݁ځ߁ہӁف݁ށށ݁܁ہށށځŁс́āƁ́ǁ́Łсˁҁ́ˁȁˁɁȁρȁāȁсɁɁ΁́ԁʁʁʁ́ʁȁȁāŁȁρʁȁŁɁˁ́Ɓ́ǁˁƁƁǁƁɁʁρƁˁЁāˁʁÁׁفՁӁځɁׁρρс܁؁ށ΁ЁՁԁՁ܁ځ݁с߁ˁ؁܁ہށ؁ށӁ߁Ӂ߁߁Ձց݁ӁށځӁԁԁЁҁӁҁ܁؁Ձځρ؁ցׁ́ՁЁׁρׁсفށہҁځׁՁ܁ρՁЁԁ܁ׁ́ցԁց߁сہҁҁՁρՁԁՁ́ˁ߁ځʁҁ߁ρځс݁݁فӁ́݁߁܁ށہց݁݁߁ҁ؁ցցځс܁ہցˁρ́ԁԁځρׁځЁ؁́ށԁԁف߁؁ׁׁ؁؁Ёҁׁׁ݁ց݁ˁЁссԁځցԁہʁ؁Ёׁ߁߁ځ΁ف݁ށсفցفՁҁف؁ځԁفށρ܁ہցځށ؁ԁہہցρցցށ߁ׁԁЁށځׁׁց؁ف܁؁Ձ؁݁ҁށՁށ؁܁فЁс܁сׁ߁ց؁сځ܁ցՁցށ݁Ӂ݁ԁƁԁӁρށ́ЁہׁՁہ؁ف؁فׁفȁˁρׁځ݁ց܁فׁЁԁցށ߁ԁ݁с΁ԁہہ܁فӁ΁́ρځ܁ԁԁցց؁ցʁρӁ݁ށցс݁ԁӁρԁԁЁځӁԁ߁ցففӁՁ݁؁ҁԁ߁́с݁ҁׁف؁ہ؁́Ձށ܁݁ҁ݁ԁԁ؁Ձہρ́ށԁρځ΁ہځρׁց߁ہɁ߁܁ǁ݁ρ؁ՁՁفсԁف߁сՁ܁ށԁׁہՁ܁؁ԁفׁ؁ہ߁߁ցԁׁځہ݁߁ЁفʁԁӁ܁ށׁсہӁفсف؁ҁՁ݁فˁց݁݁ցځҁҁށԁՁفف݁Ёفԁׁԁԁցҁ؁сف߁ցсցցԁ؁ӁՁԁՁفӁ؁فׁ́ہց߁ށځ܁ρہہЁՁہʁӁӁׁՁ؁ہҁف؁ׁ܁ׁԁہ݁ہсӁˁށ΁؁فہց́ځׁځށՁȁځՁށՁ܁ځԁԁ܁܁΁ہԁρ؁́Ձ߁߁ځՁρՁ́ȁځځفӁÁցفׁԁށӁ߁؁ցӁҁ܁Ձہ܁ˁЁρՁӁׁ߁ʁՁ؁сׁځԁց؁ځ؁ށс߁ہށ́́΁ԁ߁ԁ߁ׁՁف΁Ɂ݁؁߁ҁ؁ځցׁԁҁׁ́ˁׁځ܁ЁρсāӁƁ܁ہ݁с߁فځځՁفځс݁ց݁܁ف́ӁہρځсՁԁށρց݁ԁˁցЁԁہՁԁʁ́Ӂ؁сԁہہցԁՁށށЁЁρ܁؁ׁՁӁׁځށԁځ؁Ё܁ہށԁށׁށ؁؁ՁׁՁ݁ԁԁ܁ցفށށЁ߁Ӂفځفʁ܁Ձہ΁ځځށρف΁ہ݁ځρׁفׁ݁ցށށׁہځ؁ށځЁہ؁ځځہсځہׁ؁ҁՁށցρځՁׁ́ӁāہρӁ܁ہӁ݁ՁہԁӁԁ܁΁ށׁځԁ߁ˁρ߁݁ҁˁށځف܁сׁԁׁˁՁӁ؁΁ցсׁ؁ہ΁ρӁہӁځ݁Ӂف݁؁Ӂցׁ́Ӂ́ځցہفρ܁ց؁́ځځځ݁ځ؁сׁ́Ձ܁ׁ܁݁߁ˁށԁӁށځԁ߁؁ׁ݁ցہ؁ׁށہہɁׁ܁ځ܁ׁՁށہށׁہ߁ށ݁݁Ӂׁׁ݁܁فց؁فہ؁Ӂځفׁفʁʁށʁ܁ā΁؁Ӂف́ց߁Ӂށԁҁρ܁́݁ہށց߁؁ށՁځԁӁ܁ہׁԁ؁ҁ݁فށցԁׁہˁ߁؁܁؁ށʁ܁فԁށׁՁف݁ҁہفӁف݁܁ځρȁ݁ӁҁفԁցՁ΁ہׁՁف΁ց݁݁ՁāāÁÁāÁÁŁƁÁ́ЁʁʁԁՁҁ́ց́ف؁ԁсʁӁځԁԁ΁ˁˁفӁЁցҁӁՁہށҁف؁ρ܁ˁցׁׁځсҁ΁́Ӂρҁʁځ܁ہˁցρӁՁЁҁӁ́́сҁ́Ӂ߁ҁށځρӁсЁƁց΁܁́؁ԁЁ́ҁځׁԁցԁ́Ӂځځρׁ݁ҁ΁فс؁ρЁہсӁҁɁ́сԁفׁ߁݁ρӁʁ܁ցށρӁ܁؁ԁہہՁ݁ҁ܁сԁہفցց΁ففׁځҁсӁׁԁցЁԁ́ہ݁ށ΁܁ȁفځӁ́ց߁ցՁ؁ՁցށˁӁӁҁԁׁӁہځӁʁс́ɁɁԁ߁ʁ݁ց؁ہց܁ԁ߁ԁ߁ցԁԁׁɁցفԁ́܁Ёρԁ߁ׁ݁ՁсՁցՁԁρԁ؁сցρӁҁցցʁЁŁՁЁҁׁԁҁՁ݁߁с܁ځρʁԁ́܁ǁɁ΁΁Ӂف݁ρՁҁ؁ׁׁρځ܁ρځׁ؁сρҁفˁЁӁӁҁ݁΁ԁā؁ҁԁځсˁՁρЁځ́ցہځ؁؁ԁӁׁ́ρρˁ؁ƁЁԁہҁՁց́ӁځʁЁρ΁Ӂׁ؁ˁށՁ܁ԁ́فہ߁ׁׁ́ՁρŁ́ҁρف؁ԁՁف́܁ӁӁՁҁЁՁ߁Ёҁ؁΁ׁҁҁׁځځ́܁ށށׁՁʁсҁ؁ہρ܁Ձ؁߁΁؁ɁفԁӁ݁сׁ́ԁˁˁˁׁρԁՁρƁ݁āӁρ؁ׁ́Ձׁفԁ΁ԁ܁́܁܁΁ׁց߁ցفʁρ΁Ёҁ؁ׁ؁Ձف݁ցՁЁׁ́Ӂց΁߁ЁցՁԁˁفہ݁݁݁Ł́΁ʁցցځցہɁہ݁ˁفԁЁЁӁЁځҁցׁԁ؁Ɂׁց؁؁ɁӁˁׁԁׁ݁ف߁ցЁفсӁցՁԁځׁׁցށɁ΁ҁ؁сׁ́΁ׁ؁Ёρρ܁ՁفҁہՁفՁ́Ձ؁Ёρҁہ݁فցځՁ́ӁɁӁׁׁ́ԁ؁ցсہҁρ΁ށցفށہсҁЁ́ځ́ځӁӁ؁Ձ݁́΁́؁Ӂցځ܁΁ցсفЁ΁ׁӁځԁ΁߁Ɂǁ؁с݁܁؁ρсׁ́ρف́с΁΁Ӂ݁߁ځہׁсρӁρՁԁʁ݁ց́ՁׁځҁՁށӁӁЁׁ؁ׁԁށҁցށЁցՁ́ԁہҁρׁՁ܁ҁށ؁ہہсҁӁс؁܁ԁ܁ׁ݁ρԁɁցԁ́ԁ܁ԁρ΁ہՁ߁Ёځԁ؁ׁρׁ؁ӁՁ؁ˁՁ؁́Ӂ߁ׁ؁ЁׁفЁсԁցҁ́ցρՁف؁с΁Ӂ́؁ρсρՁсׁ݁݁ځց܁Ӂ܁ӁЁށց΁ӁՁہہсׁׁ́ցցҁ؁Ӂ΁с݁ӁсӁց؁ց́ЁׁӁԁ݁ՁՁفہفсہ́ҁ́؁ρ݁ʁ؁݁ہ́؁ցցہ܁Ձ؁ā؁ҁ܁ځՁˁӁӁρցՁځفӁӁс݁ց؁܁ށفՁ؁ȁ́؁ׁ́ہʁ߁ԁЁցځ́ցՁ߁́ہρفہށԁ΁ǁԁׁ΁ссŁցҁԁځށԁفсׁԁ؁ˁҁՁӁ݁Ё΁ЁځԁׁցЁցӁ؁؁ЁЁՁׁہځЁӁρց܁ցہҁ؁ہҁށہ΁Ձ΁ցˁˁ́ց؁ǁԁ́ՁفЁ΁ҁЁЁԁԁ߁ցՁӁׁ́܁ׁҁӁہӁ܁ցԁҁρɁ݁܁ŁہׁځӁˁ߁ˁ؁Ӂҁ́сفӁցɁсځځفЁՁԁԁׁԁ΁ׁ́ρׁׁ́сʁ؁ځցՁ݁сҁہρففсׁׁځ؁فЁȁ߁Ձف ЁЁ߁́؁ҁہӁՁ΁ցׁρЁׁԁՁ΁ҁ܁Ɂցҁցفׁ߁ԁցցׁځցׁɁ؁ԁفсԁӁǁ܁Ӂفԁف܁ځځہ́ԁށہ؁сցЁЁ؁Ձׁ܁܁ՁځɁρӁցہځӁʁ݁́فҁԁсցÁɁԁρ΁Ёˁ΁΁Ɓʁȁ́Ɂȁˁҁ́ЁǁЁсƁ́΁ʁ́ށ߁܁܁ہف܁߁߁܁݁߁݁Ձ߁݁݁ہہ߁݁ށ߁܁߁ف߁܁܁݁݁߁݁ف݁ށ߁ہ߁ށށށށ߁ځف߁ہ܁܁ށہ݁݁߁߁܁܁ށ݁؁ׁ߁ց݁ցف߁݁فށ݁ށ܁؁߁ځ߁ށ܁߁ˁŁȁ́ˁʁҁāÁ́Łρρˁʁԁ́Ɂʁρ΁ˁɁƁƁ́́ҁ́ʁǁӁՁȁρÁ́ҁρӁˁƁʁρƁ́́āǁƁҁˁ́Ɓρ́ȁʁˁρƁ́ÁɁȁсɁρȁ́́ȁˁ΁ρ́с́ہԁρρȁЁӁс΁сʁʁǁ́ʁЁفށ߁݁ށs݁߁߁ށ߁߁߁ށށ݂߁Ӂځҁ΁ցƁʁԁρ΁ӁŁ́ǁρȁсЁԁҁЁԁӁՁρ́́ˁɁȁԁρҁсˁցҁՁȁс́ˁӁЁʁӁҁӁ́ˁ΁ЁځсˁցցҁρӁҁՁҁ΁ԁՁԁɁ́΁ׁʁсفׁ݁߁߁܁ށށ؁߁ց݁́݁܁Ёցҁցׁ́сففށՁׁȁ؁߁ՁՁӁ́Ёށׁ܁݁ԁ́ЁЁ܁ہ́߁ہ́Ձ߁ف؁́ӁՁ܁ӁہсǁہՁՁȁҁ́ҁفՁʁځ؁ԁՁ݁فށ݁݁ځށƁ܁ځفӁ߁ځفсՁ܁́ҁ݁فځӁԁ߁ҁށ܁ԁځՁ܁ׁ؁ցԁفˁ݁فԁՁρс݁߁ف܁ρׁԁՁفځ΁ځЁ́Ӂ܁܁ށ݁؁ׁ܁ˁԁ݁ԁفׁӁсցځց߁ځցՁ؁܁́ہҁہցہցځށցہʁ݁ՁՁ܁ӁفՁԁӁށӁفցف́Łہׁ߁́ہЁׁՁցЁׁفˁہӁځՁށҁففցށӁ߁ف؁؁ЁҁށՁہՁՁ݁؁ځ܁ہ܁ցفׁفՁҁׁ݁݁ف܁ځ́܁ցށ́܁ԁցԁԁӁށҁہցׁفځہ؁ׁׁفہ΁ցԁׁс́ӁӁ́܁ρ݁؁ԁ́؁ԁ؁فЁԁف݁ҁ܁فށЁց݁ՁہׁՁށ݁ځځ؁ہفށҁԁρ؁ځׁ݁ҁҁЁہ܁ށρځ݁ԁׁЁ܁؁Ёցсہҁ݁Ӂ݁ҁ߁ׁԁ؁؁ށ؁܁ׁځсǁށсف؁́݁ЁӁہ؁؁ցށ܁؁ӁՁցہɁ́ց؁Ձցف݁сځށ؁ށہҁہ́؁ԁ܁Ձ܁ځс܁с܁ׁفځށہفՁځցہՁׁځفԁՁց݁ρ܁ρҁց߁ށՁЁԁՁցՁсʁցӁׁʁρ́ρځ؁Ձ́сہ݁ہځ݁ցЁہсӁʁӁԁ́ԁہށׁԁЁہׁρ݁فՁցׁԁށցׁ́ԁہӁہ݁ԁ܁؁݁ρ߁Ձ؁ҁЁȁ߁́΁ہցׁ́݁فځȁҁ݁ЁցЁځׁсЁ݁ԁׁӁԁ΁܁ׁ́ՁԁہˁہЁفˁ߁΁ف܁ށفځށׁ߁܁΁ځ؁܁ҁׁ܁ҁ߁ہځӁځہҁ߁ׁ߁ׁЁЁׁف΁؁ցځفށ؁ށفځ؁сԁ΁ԁρ؁сՁҁցˁЁƁӁہ΁ށہ݁сށՁځف؁ЁҁفׁՁ݁فށсہށہ܁ԁӁ߁ց܁Ձρρ؁Ӂҁҁρҁفށ݁݁ځсӁځˁԁӁ݁Ӂ΁сف݁сہ΁ځԁށՁЁفցށҁځԁՁ΁ځہفށ؁݁݁ҁ݁ہ؁ԁہρׁՁׁ́Ӂʁہ߁ہ؁݁ہׁ΁Ձʁځ܁ށԁЁȁׁ݁ՁЁށ܁ԁ߁ځӁفځہׁہׁ́ځցс܁́ځ܁ӁԁځҁρӁՁցځԁӁׁсӁՁ؁΁؁ցӁفځہ؁Ӂρց݁܁߁ׁفف܁فف݁߁ԁЁ߁ׁۂEځȁ߁ׁρǁҁ؁݁́فԁށρρ܁ہ܁߁ہ܁؁ׁہ܁́ՁفہځՁҁՁ؁ہсӁρ؁Ёہρ݁߁݁؁ف݁ցׁ݁ށ܁߁ށցɁӁʁсԁՁ߁Ձفցρ܁ҁЁ߁Ɂ΁Ёρ΁ցՁف؁؁ЁՁׁӁށс؁ҁցҁԁ؁ہ݁сځс܁ˁсہԁցف݁Ձځ́сׁ΁Ёȁځ߁ԁЁԁՁفׁց؁ہՁցځځہӁځځρ́ρӁρځҁҁӁ݁܁߁Ձԁׁ߁ށ߁܁ԁف؁܁؁؁ӁہՁׁہ؁؁с߁؁ځׁҁ݁ց؁ցЁ܁فЁׁց݁ցЁЁށׁҁׁہځ܁؁ҁρՁց΁ہсӁՁցׁށ݁فցՁÁÁÁʁŁƁ́ȁȁɁŁÁƁŁЁȁāāƁƁɁǁɁ؁ہށׁ݁ځ؁ہ݁݁ځׁ؁߁ҁ߁ׁ݁܁ׁ߁݁؁ہ܁ށށ݁ځ݁ځׁ܁߁ׁׁށ܁ہށف݁܁܁ف݁݁ځځށ݁߁ށ܁ց߁ׁށ߁߁ԁہՁ݁܁ށ܁ہ݁ځ؁߁؁܁Ӂށ܁ցفہف݁ށ܁݁݁܁ށف؁ہށ߁߁ށ܁߁݁܁߁݁߁݁فށށ߁ف܁Ձ߁܁ځف܁ׁ܁ց߁ځցցՁ߁ށ߁܁فہځ́݁ց܁܁ہׁ܁فځ߁Ӂށہցہفف߁܁ہ݁܁߁فށӁ܁݁Ձ߁݁܁݁߁݁؁ށځ߁؁݁ށ߁܁߁ځ܁ށ߁ށځ܁܁ԁ߁فہ܁сށ߁ށ߁܁܁܁ځׁׁցځہ߁ށ܁ف݁ہہفށ߁߁Ձށ݁ށہ݁؁ہ؁؁ׁ߁ށՁہׁ݁؁ׁځہځ؁؁ہ݁݁܁߁ف߁߁ށׁ߁Ё܁ہ݁ہ܁؁ށށށ܁ځ߁܁ځׁ߁ׁՁ߁ہ݁ہށ܁Ձ߁܁ׁׁ߁ׁց߁ف݁݁݁ށ܁ށ܁ف߁܁ہ߁߁ہ݁ہ߁ځցہ؁܁߁ށށցׁف߁߁ށ݁Ӂہԁ݁܁ށ߁ށف߁Ձ߁ہ߁ׁ݁ف݁ف݁ށށ܁ځӁׁ܁ف܁܁؁ҁ݁߁ށցށ߁ށہ߁ށ݁فՁ݁ցف߁ށ܁߁ׁہ܁݁߁ȁʁȁˁǁƁƁρŁāÁǁāƁɁˁȁŁȁȁŁÁŁÁȁǁ΁ǁƁǁɁʁɁɁˁŁʁÁÁāǁȁƁʁʁÁʁāŁǁǁāā́ǁƁÁɁÁÁŁāفށہ݁ہ܁ށف܁فځف܁ف؁Ӂсށށԁ܁ށ́܁؁݁݁܁܁܁݁ށ߁ׁ܁܁فցׁ؁݁ف؁؁ށځ߁߁Ձށׁ܁܁݁ρ݁ہ܁ށց݁ہ؁Ӂցځ܁݁݁ف߁ҁ߁߁܁܁ہځ܁ځ݁ځ߁ׁՁفׁׁ݁Ձށ߁؁؁ہہځ܁ہށ߁܁ځ߁ށ݁߁ց܁ׁ߁ҁ݁܁߁́ځ݁ځفӁց߁ہ݁ځ݁؁ցځ݁ށ݁ہ݁؁߁ށށԁہց݁ցہׁ߁ށՁفՁ݁߁܁ށ݁ہ߁߁߁܁܁ށՁ߁ځ؁ځہ݁ہ߁ففցށށہ؁Ձ߁܁؁ށׁցځ߁݁ځ߁܁ށفށށ݁Ձ߁ށ݁؁߁؁܁߁؁ہ؁ׁށف݁؁߁߁߁Ӂ݁فށՁށ΁Ձہցρׁځ߁ށԁځӁԁӁ܁߁߁ׁՁ؁ف؁ށ܁Ձց߁݁ځف݁Ӂց݁ԁՁށ܁ށہ߁܁ҁ܁߁؁߁߁ځ݁ցՁ݁߁܁ځ߁݁܁ځ؁ځށށׁӁ߁݁ځ܁߁؁܁ށՁׁ݁فف߁فށہ߁Ձԁ݁߁ځ܁ہӁ݁ہہց́ށ߁ׁ؁ہففہہف؁ԁ؁߁݁؁܁ҁف݁߁ف݁ށށہ߁ԁ؁с܁߁ׁففցف߁݁܁ہ܁݁݁ځہ݁ځށ߁ف߁ց݁ځہہ߁ԁ߁ہہف݁ށہہ؁ف؁߁߁؁ށ߁ف߁߁Ё݁؁ف݁܁߁߁݁ρ݁܁ځށށفځс߁߁ށہށ߁ہہہ؁܁܁܁܁߁܁Ձԁ߁ށہ߁߁ށӁށցځՁ݁߁ށԁ߁߁߁܁܁؁߁߁ہځ܁܁؁ځفف؁݁ށځՁہ؁сف݁߁ҁہށށՁ݁߁Ձ؁܁؁ہށ݁ǁāˁÁāɁāƁŁŁȁʁЁƁȁ́āƁсƁāÁÁȁƁˁƁǁÁÁÁāɁŁ́ɁāƁǁāˁȁǁ́ʁŁ́ˁ΁ǁʁɁȁǁˁȁƁƁсɁҁЁāρ݁߁ف܁؁ށہށ܁ׁ݁߁؁ށ݁؁ށ߁݁݁ہ܁ށہՁ߁ց߁݁܁܁ف݁ށށ߁ہ߁ށ݁ށ݁߁ށ߁ށہށہՁׁ߁܁ށ߁ہՁ؁݁ށ݁ہށށ݁Ձ܁ځ߁߁ف܁߁فہځցفځفށ߁߁ށہށށف킀ށ߁ׁ߁ہ߁ہׁׁ݁݁ځށ݁%E0,*)**%1(  ށށށ݁ցځہ܁݁ہ߁߁сƁ́ɁρɁƁʁˁӁ΁ŁʁԁƁˁɁɁ؁΁ҁɁ́ɁρˁʁƁˁāЁʁɁˁˁǁȁˁʁɁ́ʁɁ́́с΁Ɂ΁ŁāāӁˁǁ́΁сÁŁЁ́́ÁƁ΁ÁŁƁӁ܁ցځׁ́ՁځځՁցҁԁفځЁ؁߁́ہ؁فځځ؁ԁׁ؁܁Ӂ߁؁߁ׁ́݁ցفځځفځځف܁ځׁށځ؁߁сӁ؁܁؁ׁӁ݁فށ؁܁Ӂҁځށԁ؁߁Ёԁс݁݁ہځՁ݁ہ܁ځԁ΁ρссҁف݁߁ށށȁ߁ށցӁށځ܁ׁ݁Ӂ܁ہׁځ݁܁ӁЁ܁ցׁ́Ձفҁ߁ԁՁ܁فԁ݁ց؁݁݁ρׁہہׁׁ߁܁ׁځށЁہށЁՁفˁށҁׁفҁ߁ց߁؁Ёԁ݁ԁځׁ؁ׁفہՁցՁ݁ށցځցāށ؁ց́؁ҁفՁށՁځՁցՁ؁ށԁ؁ҁ܁Ձ݁ށԁځށׁ܁ԁҁԁˁہՁׁށ߁߁ہ݁с́܁с؁ށԁفށρ߁ρށՁفҁށԁہہӁށ́؁ށԁՁ߁ԁցց܁ށҁف؁ځсہ݁݁ՁہՁ؁ځ݁ցځˁفՁށ́ځ؁ρ݁ށځ߁ځҁ܁݁?߁ցρӁ؁݁Ձށ܁؁ԁЁ݁сρ߁ځ܁܁݁ցՁځՁفہځӁ΁ށׁف݁݁߁؁ׁ܁݁ہ؁فځҁ؁ԁ߁΁Ձ߁߁܁߁ׁ݁فՁҁׁ݁݁ځӁс́߁߁Ӂׁ݁ց݁ށׁ́ځ܁Ӂށ؁ԁցځ؁ہсցӁہ߁܁ہׁفӁρӁЁف܁ׁ܁ففށ݁ہՁށӁׁԁށ́ځցׁׁՁفցց܁с܁ہԁՁށށ߁؁؁݁ӁՁ݁́ށՁׁ܁ׁہہҁӁЁ܁ׁсցہځׁՁځρ؁с܁فρՁӁ؁ցہہ݁ف߁߁ՁЁف؁ف܁́Ձفށف݁ہց́ځ܁فׁՁفׁ؁ӁӁ܁܁ށӁ߁؁ځԁҁ݁ځՁہ܁ӁՁԁہ݁ځځρ܁Ձہہفׁ܁ׁ݁Ձ߁ԁӁ܁Ձ߁Ӂ߁߁݁ցׁ݁ʁׁځށفˁׁہ܁ׁԁׁ؁Ёځ؁݁ցځԁӁ؁فׁ؁ځ݁߁߁݁Ӂׁ܁Ё߁΁́ցǁ߁فׁՁρԁԁ݁܁ӁځӁށ́Ձ؁݁ف́ځفځсӁ܁؁ށ܁ځځՁׁ܁ׁӁ܁܁ہ݁сށف܁ׁ߁؁ځȁ܁ځځӁ݁߁ցځρӁ܁݁فӁ΁ځׁفՁցЁӁ܁сށہفՁЁہց؁ہہցځ߁߁؁ށځԁہށہρہׁՁفρځρ܁؁ہ߁ӁՁ؁ہ܁ՁففځցցցՁՁׁ؁فӁ΁ցҁفՁӁсفځՁځׁ܁؁ففہ߁܁ف߁ށ߁ԁ܁܁́܁ہ߁߁܁ׁׁ܁ԁفԁځ܁߁܁ׁ܁܁܁Ӂ܁߁ځ܁Ӂ݁؁ցρ݁ՁځށՁсҁ߁ہ߁ˁց߁ށفށفׁځہցځցԁ߁ہ؁ځށہށށ߁ށށށЁف݁݁߁ԁց܁݁ԁہށ́فہԁρځځсՁЁفρف܁ց݁ՁففՁ؁ԁׁ߁܁݁߁ցс́ށ܁΁ށс܁݁ҁՁ܁Ӂ܁݁؁߁ށׁށ݁ځ܁ׁЁՁ݁ہӁҁہՁ́ށفځÁāÁŁÁÁÁŁŁƁʁŁÁāÁÁȁŁāŁȁƁɁƁ܁܁ہ߁ށ݁ҁՁ؁ہ܁ف؁߁݁؁ށ߁ہ؁Ձ݁؁܁ځׁہ߁ށ܁ށׁ݁ف݁؁߁݁܁فށׁځفց܁ځ݁ԁށׁ݁ہ݁ف߁܁߁ށفہ߁܁؁ׁځہށہށ݁ցہ؁݁߁؁ہ݁݁ځ܁ށށ݁߁݁ށف؁ف߁ځ߁ށׁځށׁ߁сہہځ߁ׁ܁ځہفف߁؁ԁځ܁߁ہ݁ށہ݁ށف܁݁فށ߁߁فف݁فہށށށف߁܁܁߁ցށفށہ߁Ӂ߁܁݁Ձށ߁ށ܁؁ށہځ݁ځށׁՁ݁݁ցفށҁفށځځ܁߁߁؁с߁ށہށށہہ܁ށՁفځ݁ہށׁځށՁށ܁߁ہ݁݁܁ށ݁܁݁ԁ݁ځׁǁށځ؁ہفہ߁ہׁځځہہ݁ف؁ځ؁܁߁فށށف؁؁ځՁށӁ݁ہށ݁߁݁ց߁߁فށׁ݁فց߁ށ߁߁ׁفׁׁ߁܁ځ݁܁ށ߁ہف߁ہ܁܁ށ݁܁ہׁ߁ہ߁ށށہځ݁ԁ߁܁߁܁ށ܁ہ݁݁ځЁ݁߁߁݁؁ہׁށہ݁߁ہׁށفځԁځށ߁݁݁ځށׁفففہ߁ԁ߁؂߁܁݁ށ߁߁ہ߁؁ށށށ݁߁ہ݁ށہb肥7ށ؁ځ܁܁܁߁܁܁ށށށ؁ځہہށց܁ځ܁ہځ؁ށ݁݁ہ܁āɁɁ́ÁǁŁȁЁŁāЁÁƁāɁǁƁ́āŁˁƁɁāŁŁƁ́ÁȁˁŁʁȁȁʁÁÁŁŁŁǁɁǁāÁȁŁŁƁŁāŁ܁ځ؁Ձ߁ށ݁ځ߁ہ؁ہށ؁؁ׁ݁܁ځ߁ځց؁فցہځρ݁ց؁߁܁ׁׁ܁ށׁށفށ܁܁܁ځ߁؁߁݁сځՁ߁܁ށׁ݁؁ہށ߁ہ߁Ձځ߁ׁׁ߁߁݁ցԁ݁ځ؁؁݁فԁց߁Ёہ؁؁ށځہ݁فׁففށׁׁށ܁ށ߁߁ف܁فށՁց߁ځ܁ہ܁Ձ߁ځہցށց߁ہ܁ҁ؁Ձفہ؁ցځځҁف݁ځفցЁ݁܁ρ݁؁߁ՁځށсہԁށہށفՁށځہׁށՁ݁݁؁ځ݁Ձ܁܁ف߁فہځ܁Ձ܁ҁԁ߁ҁ؁΁Ӂ݁ځہہ؁ԁ߁ށ݁܁ԁׁցׁˁӁց݁ځցԁ݁߁݁ہ݁ہ́܁ف߁߁Ձց݁ځہց߁ށׁہ߁Ёځ߁ҁցہށہՁ܁ׁ݁߁߁فҁ؁ہށсہہہفҁ߁ہށہ߁߁܁ԁ܁فځׁہ߁ҁӁց܁ҁ܁΁ځ߁ځہ܁ށԁ݁ށ߁݁ہ؁ف݁فہځށ܁ρށ؁߁ہ܁܁߁݁߁ށ܁݁߁Ձ؁Ӂ߁ځށށЁہ܁܁فށ܁ہ߁݁ށցԁفׁցׁށ݁߁ہׁ؁ށށ܁݁߁ׁ߁ցځׁ߁܁ہ݁ށׁց܁ׁځ܁ׁցׁ؁܁ҁ؁؁Ձځفށށہށځ߁ҁځ؁ځށځсف܁ځށށ܁݁ہ݁ށށցف߁ف-)ց܁ځՁׁ߁ځ߁ԁہہفց߁؁فہہځӁՁ݁Ձځ݁ف܁ԁففށہ݁ځځׁׁ݁߁ׁׁׁ܁ف܁؁Ձށށց݁ށӁځ܁ہہ܁܁ՁQҁ؁ց܁ف܁ׁ݁݁ہفׁ́ԁ؁؁ہԁ܁؁ہՁށށہفށہׁ߁܁ځ߁ށԁ݁݁Ձ؁فށ܁ہ܁ށӁށځ؁ففҁ؁ہՁӁ؁݁ҁց߁܁݁ρց݁ρ߁ہ܁΁݁ہ܁؁ρށցց؁ׁف߁ށ߁ԁ܁ށρ݁܁܁؁ׁ߁ҁρԁށށ߁܁ށҁفӁ܁݁܁ׁׁ݁ځցہ߁ށҁӁځہہ߁߁ہρ܁ہ܁ԁށہՁځ߁߁؁فׁԁށځہāŁÁȁÁƁÁŁāÁÁʁȁŁʁāÁāɁρȁŁāāҁȁҁ́́ЁӁˁЁсЁӁˁҁρЁρǁׁсɁ΁΁΁ҁ́΁܁݁݁߁߁܁߁߁ށځ߁ہ݁߁ށ߁ށ߁ց +SIMPLE = T / conforms to FITS standard BITPIX = 8 / array data type NAXIS = 0 / number of array dimensions EXTEND = T NEXTEND = 1 / number of array dimensions DATE = '2024-08-17T06:05:12.0' / written date (yyyy-mm-ddThh:mm:ss.s) FILENAME= 'CSST_MSC_MS_SCI_20240817060512_20240817060742_10160100000_09_L0_V01' FILETYPE= 'SCI ' / observation type TELESCOP= 'CSST ' / telescope name INSTRUME= 'MSC ' / instrument name RADECSYS= 'ICRS ' / coordinate system of the object EQUINOX = 2000.0 FITSSWV = '2.1.0_20231208_wcl-5' / FITS creating software version COMMENT ========================================================================COMMENT OBJECT INFORMATION COMMENT ========================================================================OBJECT = '60000000' / object name TARGET = '161953.0+395345' / target name (hhmmss.s+ddmmss) OBSID = '10160100000' / observation ID RA_OBJ = 244.972773 / object RA (deg) DEC_OBJ = 39.895901 / object Dec (deg) COMMENT ========================================================================COMMENT TELESCOPE INFORMATION COMMENT ========================================================================REFFRAME= 'CSSTGSC-1.0' / guiding catalog version DATE-OBS= '2024-08-17T06:05:12.0' / observation date (yyyy-mm-ddThh:mm:ss.s) SATESWV = '0001 ' / satellite software version EXPSTART= 60539.25361 / exposure start time (MJD) CABSTART= 60539.25361 / first cabin time after exposure start (MJD) SUNANGL0= 50.0 / angle between the Sun and opt axis at CABSTART MOONANG0= 30.0 / angle between the Moon and opt axis at CABSTARTTEL_ALT0= 20.0 / angle between opt axis and Elimb at CABSTART POS_ANG0= 20.0 / angle between y axis and North Pole at CABSTARTPOSI0_X = -2218.3663 / orbital position in X at CABSTART (km) POSI0_Y = -5817.8559 / orbital position in Y at CABSTART (km) POSI0_Z = 2597.9467 / orbital position in Z at CABSTART (km) VELO0_X = 5.058199026407237 / orbital velocity in X at CABSTART (km/s) VELO0_Y = -3.85818799871231 / orbital velocity in Y at CABSTART (km/s) VELO0_Z = -4.322908628205369 / orbital velocity in Z at CABSTART (km/s) EULER0_1= 0.0 / Euler angle 1 at CABSTART (deg) EULER0_2= 0.0 / Euler angle 2 at CABSTART (deg) EULER0_3= 0.0 / Euler angle 3 at CABSTART (deg) RA_PNT0 = 244.972773 / pointing RA at CABSTART (deg) DEC_PNT0= 39.895901 / pointing Dec at CABSTART (deg) EXPEND = 60539.25535 / exposure end time (MJD) CABEND = 60539.25535 / first cabin time after exposure end (MJD) SUNANGL1= 50.0 / angle between the Sun and opt axis at CABEND MOONANG1= 30.0 / angle between the Moon and opt axis at CABEND TEL_ALT1= 20.0 / angle between opt axis and Elimb at CABEND POS_ANG1= 20.0 / angle between y axis and North Pole at CABEND POSI1_X = 0.0 / orbital position in X at CABEND (km) POSI1_Y = 0.0 / orbital position in Y at CABEND (km) POSI1_Z = 0.0 / orbital position in Z at CABEND (km) VELO1_X = 0.0 / orbital velocity in X at CABEND (km/s) VELO1_Y = 0.0 / orbital velocity in Y at CABEND (km/s) VELO1_Z = 0.0 / orbital velocity in Z at CABEND (km/s) EULER1_1= 0.0 / Euler angle 1 at CABEND (deg) EULER1_2= 0.0 / Euler angle 2 at CABEND (deg) EULER1_3= 0.0 / Euler angle 3 at CABEND (deg) RA_PNT1 = 244.972773 / pointing RA at CABEND (deg) DEC_PNT1= 39.895901 / pointing Dec at CABEND (deg) EPOCH = 2024.6 / equinox of pointing RA and Dec EXPTIME = 150.0 / exposure time (s) COMMENT ========================================================================COMMENT VERIFICATION INFORMATION COMMENT ========================================================================CHECKSUM= 'DhIlDgHkDgHkDgHk' / HDU checksum updated 2024-03-15T15:51:50 DATASUM = '0 ' / data unit checksum updated 2024-03-15T15:51:50 END XTENSION= 'IMAGE ' / image extension BITPIX = 16 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 20000 NAXIS2 = 4700 PCOUNT = 0 / number of parameters GCOUNT = 1 / number of groups BSCALE = 1 BZERO = 32768 EXTNAME = 'IMAGE ' / extension name EXTVER = 1 / extension version number BUNIT = 'ADU ' / physical unit of array values COMMENT ========================================================================COMMENT DETECTOR INFORMATION COMMENT ========================================================================CAMERA = 'MS' / camera of main survey DETSN = '12345678' / detector serial number DETNAME = 'CCD' / detector type DETTEMP1= 173.0 / detector temperature at EXPSTART (K) DETTEMP2= 173.0 / detector temperature at EXPEND (K) DETTEMP3= 173.0 / detector temperature at READT1 (K) DETSIZE = '9560x9264' / detector size DATASECT= '9216x9232' / data section PIXSCAL1= 0.074 / pixel scale for axis 1 (arcsec/pixel) PIXSCAL2= 0.074 / pixel scale for axis 2 (arcsec/pixel) PIXSIZE1= 10 / pixel size for axis 1 (micron) PIXSIZE2= 10 / pixel size for axis 2 (micron) CHIPID = '09 ' / chip ID CHIPLABL= 'r-1 ' / chip label FILTER = 'r ' / filter name NCHANNEL= 16 / number of readout channels PSCAN1 = 27 / horizontal prescan width, per readout channel PSCAN2 = 8 / vertical prescan width, per readout channel OSCAN1 = 16 / horizontal overscan width, per readout channel OSCAN2 = 16 / vertical overscan width, per readout channel COMMENT ========================================================================COMMENT WORLD COORDINATE SYSTEM INFORMATION COMMENT ========================================================================WCSAXES = 2 / number of WCS axes CRPIX1 = 4600.694649742984 / x-coordinate of reference pixel CRPIX2 = 4604.383757040574 / y-coordinate of reference pixel CRVAL1 = 244.5872723135913 / value of reference pixel on axis 1 CRVAL2 = 39.68195466168969 / value of reference pixel on axis 2 CTYPE1 = 'RA---TAN' / type of RA WCS projection CTYPE2 = 'DEC--TAN' / type of Dec WCS projection CD1_1 = -6.8096767434962E-06 / transformation matrix element (deg/pix) CD1_2 = -1.9394088718019E-05 / transformation matrix element (deg/pix) CD2_1 = -1.9394079613547E-05 / transformation matrix element (deg/pix) CD2_2 = 6.81009530128767E-06 / transformation matrix element (deg/pix) COMMENT ========================================================================COMMENT READOUT INFORMATION COMMENT ========================================================================GAINLVL = '01' / gain level GAIN01 = 1.089977689498424 / gain (e-/ADU, channel 01) GAIN02 = 1.099175619835018 / gain (e-/ADU, channel 02) GAIN03 = 1.107649165474623 / gain (e-/ADU, channel 03) GAIN04 = 1.121722214644728 / gain (e-/ADU, channel 04) GAIN05 = 1.081220797968546 / gain (e-/ADU, channel 05) GAIN06 = 1.09456272850753 / gain (e-/ADU, channel 06) GAIN07 = 1.111430472148367 / gain (e-/ADU, channel 07) GAIN08 = 1.105606424366627 / gain (e-/ADU, channel 08) GAIN09 = 1.101874970320761 / gain (e-/ADU, channel 09) GAIN10 = 1.085064046871988 / gain (e-/ADU, channel 10) GAIN11 = 1.12218772525153 / gain (e-/ADU, channel 11) GAIN12 = 1.114934178226512 / gain (e-/ADU, channel 12) GAIN13 = 1.119336504852553 / gain (e-/ADU, channel 13) GAIN14 = 1.093036190194986 / gain (e-/ADU, channel 14) GAIN15 = 1.084334798104931 / gain (e-/ADU, channel 15) GAIN16 = 1.090894538052644 / gain (e-/ADU, channel 16) RON01 = 5.0 / readout noise (e-, channel 01) RON02 = 5.0 / readout noise (e-, channel 02) RON03 = 5.0 / readout noise (e-, channel 03) RON04 = 5.0 / readout noise (e-, channel 04) RON05 = 5.0 / readout noise (e-, channel 05) RON06 = 5.0 / readout noise (e-, channel 06) RON07 = 5.0 / readout noise (e-, channel 07) RON08 = 5.0 / readout noise (e-, channel 08) RON09 = 5.0 / readout noise (e-, channel 09) RON10 = 5.0 / readout noise (e-, channel 10) RON11 = 5.0 / readout noise (e-, channel 11) RON12 = 5.0 / readout noise (e-, channel 12) RON13 = 5.0 / readout noise (e-, channel 13) RON14 = 5.0 / readout noise (e-, channel 14) RON15 = 5.0 / readout noise (e-, channel 15) RON16 = 5.0 / readout noise (e-, channel 16) ROTIME0 = '2024-08-17T06:07:42.1' / readout start time (UTC) ROTIME1 = '2024-08-17T06:08:22.1' / readout end time (UTC) ROSPEED = 10.0 / readout speed (MHz) EXPTIME = 150.0 / exposure time (s) DARKTIME= 152.0 / dark current time (s) COMMENT ========================================================================COMMENT SHUTTER INFORMATION COMMENT ========================================================================SHTSTAT = T / shutter status, T=open, F=close SHTOPEN0= '2024-08-17T06:07:42.1' / shutter open time (start, UTC) SHTOPEN1= '2024-08-17T06:07:42.1' / shutter open time (end, UTC) SHTCLOS0= '2024-08-17T06:07:42.1' / shutter close time (start, UTC) SHTCLOS1= '2024-08-17T06:07:42.1' / shutter close time (end, UTC) COMMENT ========================================================================COMMENT LED INFORMATION COMMENT ========================================================================LEDFLAG = 'main ' / main/backup LED LEDSTAT = '00000000000000' / LED status LEDT01 = 0.0 / LED01 flash time (ms) LEDT02 = 0.0 / LED02 flash time (ms) LEDT03 = 0.0 / LED03 flash time (ms) LEDT04 = 0.0 / LED04 flash time (ms) LEDT05 = 0.0 / LED05 flash time (ms) LEDT06 = 0.0 / LED06 flash time (ms) LEDT07 = 0.0 / LED07 flash time (ms) LEDT08 = 0.0 / LED08 flash time (ms) LEDT09 = 0.0 / LED09 flash time (ms) LEDT10 = 0.0 / LED10 flash time (ms) LEDT11 = 0.0 / LED11 flash time (ms) LEDT12 = 0.0 / LED12 flash time (ms) LEDT13 = 0.0 / LED13 flash time (ms) LEDT14 = 0.0 / LED14 flash time (ms) LEDTEMP = 173.0 / LED temperature (K) COMMENT ========================================================================COMMENT VERIFICATION INFORMATION COMMENT ========================================================================CHECKSUM= 'gWAehU4dgU9dgU9d' / HDU checksum updated 2024-03-15T15:51:51 DATASUM = '3747953988' / data unit checksum updated 2024-03-15T15:51:51 END ŁāŁ́́ȁŁǁȁÁÁǁȁÁǁ́ÁˁʁځӁفށׁ݁ށӁہ߁݁ہ߁݁Ӂׁ߁؁܁܁߁فځہہށځӁ݁܁߁ځځ܁ށہ߁ځށׁׁ݁݁ہՁ܁ҁՁځ߁܁ށ݁فށށށہׁ܁؁݁ځށ߁فށفځ߁ցԁ݁߁ՁӁׁց݁߁Ё߁݁݁ځށށՁҁց с݁߁ہށف߁݁܁Ձށ܁؁߁߁߁ځށӁځفҁށށ܁݁Ӂԁفہ܁܁ׁ܁ց݁ف؁܁ہ݁܁߁ցہ߁ށ݁݁ҁށہہ܁߁߁܁؁܁فځ߁ׁށ؁݁߁ށՁځف݁؁߁ځ݁ԁہށԁ؁فځ؁ށځفׁ߁݁ہہ݁߁ځہ܁؁ځށӁف݁߁݁فׁ߁فށ܁ׁځ݁܁ށЁ؁ށہہՁ؁Ձ܁܁ށ݁ځ߁ہ؁ځՁށ؂xہہځفށځ܁؁؁ځځ݁ށځՁځ߁݁݁ށށہ݁߁߁؁ҁ߁ށԁށށہށ݁߁ׁށ݁ށ߁ځ߁؁߁܁ށ܁ׁ݁߁ہՁ݁ہށف߁؁܁ށށӁρ؁ށ؁݁ځӁہ݁ہہځہف߁ށ؁ځ߁݁ށځف߁ׁ߁ׁ؁ÁŁāǁāÁŁ́ÁƁˁƁāʁǁŁāŁŁÁŁŁǁɁƁɁ́ȁƁɁɁŁƁȁŁЁˁāȁāȁāʁƁȁŁÁŁƁȁāɁǁɁ́Ё́ǁǁ́ʁāʁǁŁʁɁсɁʁЁ́āˁЁ߁ށځށ݁Ձ߁߁߁߁ށށ܁ށ݁ہ܁ށ߁߁ف߁ہׁ݁ԁځ߁ ށہ܁݁ށ܁ց߁ށށہ߁ށ؁߁ށށՁ߁ځ܁߁݁݁ށށ߁߁܁ށ݁ف܁߁݁݁ށށہށ܁؁ׁ݁߁ށ݁ށԁ܁܁߁ׁ߁܁߁܁߁ցށ܁݁فށށށׁׁ݁܁݁ہہ߁ہׁ߁߁܁$ށށ݁߁ށ؁߁߁ށفׁށ܁݁܁ځ߁؁߁ځc݁ځ߁ہӁف݁ށށ݁܁ہށށځŁс́āƁ́ǁ́Łсˁҁ́ˁȁˁɁȁρȁāȁсɁɁ΁́ԁʁʁʁ́ʁȁȁāŁȁρʁȁŁɁˁ́Ɓ́ǁˁƁƁǁƁɁʁρƁˁЁāˁʁÁׁفՁӁځɁׁρρс܁؁ށ΁ЁՁԁՁ܁ځ݁с߁ˁ؁܁ہށ؁ށӁ߁Ӂ߁߁Ձց݁ӁށځӁԁԁЁҁӁҁ܁؁Ձځρ؁ցׁ́ՁЁׁρׁсفށہҁځׁՁ܁ρՁЁԁ܁ׁ́ցԁց߁сہҁҁՁρՁԁՁ́ˁ߁ځʁҁ߁ρځс݁݁فӁ́݁߁܁ށہց݁݁߁ҁ؁ցցځс܁ہցˁρ́ԁԁځρׁځЁ؁́ށԁԁف߁؁ׁׁ؁؁Ёҁׁׁ݁ց݁ˁЁссԁځցԁہʁ؁Ёׁ߁߁ځ΁ف݁ށсفցفՁҁف؁ځԁفށρ܁ہցځށ؁ԁہہցρցցށ߁ׁԁЁށځׁׁց؁ف܁؁Ձ؁݁ҁށՁށ؁܁فЁс܁сׁ߁ց؁сځ܁ցՁցށ݁Ӂ݁ԁƁԁӁρށ́ЁہׁՁہ؁ف؁فׁفȁˁρׁځ݁ց܁فׁЁԁցށ߁ԁ݁с΁ԁہہ܁فӁ΁́ρځ܁ԁԁցց؁ցʁρӁ݁ށցс݁ԁӁρԁԁЁځӁԁ߁ցففӁՁ݁؁ҁԁ߁́с݁ҁׁف؁ہ؁́Ձށ܁݁ҁ݁ԁԁ؁Ձہρ́ށԁρځ΁ہځρׁց߁ہɁ߁܁ǁ݁ρ؁ՁՁفсԁف߁сՁ܁ށԁׁہՁ܁؁ԁفׁ؁ہ߁߁ցԁׁځہ݁߁ЁفʁԁӁ܁ށׁсہӁفсف؁ҁՁ݁فˁց݁݁ցځҁҁށԁՁفف݁Ёفԁׁԁԁցҁ؁сف߁ցсցցԁ؁ӁՁԁՁفӁ؁فׁ́ہց߁ށځ܁ρہہЁՁہʁӁӁׁՁ؁ہҁف؁ׁ܁ׁԁہ݁ہсӁˁށ΁؁فہց́ځׁځށՁȁځՁށՁ܁ځԁԁ܁܁΁ہԁρ؁́Ձ߁߁ځՁρՁ́ȁځځفӁÁցفׁԁށӁ߁؁ցӁҁ܁Ձہ܁ˁЁρՁӁׁ߁ʁՁ؁сׁځԁց؁ځ؁ށс߁ہށ́́΁ԁ߁ԁ߁ׁՁف΁Ɂ݁؁߁ҁ؁ځցׁԁҁׁ́ˁׁځ܁ЁρсāӁƁ܁ہ݁с߁فځځՁفځс݁ց݁܁ف́ӁہρځсՁԁށρց݁ԁˁցЁԁہՁԁʁ́Ӂ؁сԁہہցԁՁށށЁЁρ܁؁ׁՁӁׁځށԁځ؁Ё܁ہށԁށׁށ؁؁ՁׁՁ݁ԁԁ܁ցفށށЁ߁Ӂفځفʁ܁Ձہ΁ځځށρف΁ہ݁ځρׁفׁ݁ցށށׁہځ؁ށځЁہ؁ځځہсځہׁ؁ҁՁށցρځՁׁ́ӁāہρӁ܁ہӁ݁ՁہԁӁԁ܁΁ށׁځԁ߁ˁρ߁݁ҁˁށځف܁сׁԁׁˁՁӁ؁΁ցсׁ؁ہ΁ρӁہӁځ݁Ӂف݁؁Ӂցׁ́Ӂ́ځցہفρ܁ց؁́ځځځ݁ځ؁сׁ́Ձ܁ׁ܁݁߁ˁށԁӁށځԁ߁؁ׁ݁ցہ؁ׁށہہɁׁ܁ځ܁ׁՁށہށׁہ߁ށ݁݁Ӂׁׁ݁܁فց؁فہ؁Ӂځفׁفʁʁށʁ܁ā΁؁Ӂف́ց߁Ӂށԁҁρ܁́݁ہށց߁؁ށՁځԁӁ܁ہׁԁ؁ҁ݁فށցԁׁہˁ߁؁܁؁ށʁ܁فԁށׁՁف݁ҁہفӁف݁܁ځρȁ݁ӁҁفԁցՁ΁ہׁՁف΁ց݁݁ՁāāÁÁāÁÁŁƁÁ́ЁʁʁԁՁҁ́ց́ف؁ԁсʁӁځԁԁ΁ˁˁفӁЁցҁӁՁہށҁف؁ρ܁ˁցׁׁځсҁ΁́Ӂρҁʁځ܁ہˁցρӁՁЁҁӁ́́сҁ́Ӂ߁ҁށځρӁсЁƁց΁܁́؁ԁЁ́ҁځׁԁցԁ́Ӂځځρׁ݁ҁ΁فс؁ρЁہсӁҁɁ́сԁفׁ߁݁ρӁʁ܁ցށρӁ܁؁ԁہہՁ݁ҁ܁сԁہفցց΁ففׁځҁсӁׁԁցЁԁ́ہ݁ށ΁܁ȁفځӁ́ց߁ցՁ؁ՁցށˁӁӁҁԁׁӁہځӁʁс́ɁɁԁ߁ʁ݁ց؁ہց܁ԁ߁ԁ߁ցԁԁׁɁցفԁ́܁Ёρԁ߁ׁ݁ՁсՁցՁԁρԁ؁сցρӁҁցցʁЁŁՁЁҁׁԁҁՁ݁߁с܁ځρʁԁ́܁ǁɁ΁΁Ӂف݁ρՁҁ؁ׁׁρځ܁ρځׁ؁сρҁفˁЁӁӁҁ݁΁ԁā؁ҁԁځсˁՁρЁځ́ցہځ؁؁ԁӁׁ́ρρˁ؁ƁЁԁہҁՁց́ӁځʁЁρ΁Ӂׁ؁ˁށՁ܁ԁ́فہ߁ׁׁ́ՁρŁ́ҁρف؁ԁՁف́܁ӁӁՁҁЁՁ߁Ёҁ؁΁ׁҁҁׁځځ́܁ށށׁՁʁсҁ؁ہρ܁Ձ؁߁΁؁ɁفԁӁ݁сׁ́ԁˁˁˁׁρԁՁρƁ݁āӁρ؁ׁ́Ձׁفԁ΁ԁ܁́܁܁΁ׁց߁ցفʁρ΁Ёҁ؁ׁ؁Ձف݁ցՁЁׁ́Ӂց΁߁ЁցՁԁˁفہ݁݁݁Ł́΁ʁցցځցہɁہ݁ˁفԁЁЁӁЁځҁցׁԁ؁Ɂׁց؁؁ɁӁˁׁԁׁ݁ف߁ցЁفсӁցՁԁځׁׁցށɁ΁ҁ؁сׁ́΁ׁ؁Ёρρ܁ՁفҁہՁفՁ́Ձ؁Ёρҁہ݁فցځՁ́ӁɁӁׁׁ́ԁ؁ցсہҁρ΁ށցفށہсҁЁ́ځ́ځӁӁ؁Ձ݁́΁́؁Ӂցځ܁΁ցсفЁ΁ׁӁځԁ΁߁Ɂǁ؁с݁܁؁ρсׁ́ρف́с΁΁Ӂ݁߁ځہׁсρӁρՁԁʁ݁ց́ՁׁځҁՁށӁӁЁׁ؁ׁԁށҁցށЁցՁ́ԁہҁρׁՁ܁ҁށ؁ہہсҁӁс؁܁ԁ܁ׁ݁ρԁɁցԁ́ԁ܁ԁρ΁ہՁ߁Ёځԁ؁ׁρׁ؁ӁՁ؁ˁՁ؁́Ӂ߁ׁ؁ЁׁفЁсԁցҁ́ցρՁف؁с΁Ӂ́؁ρсρՁсׁ݁݁ځց܁Ӂ܁ӁЁށց΁ӁՁہہсׁׁ́ցցҁ؁Ӂ΁с݁ӁсӁց؁ց́ЁׁӁԁ݁ՁՁفہفсہ́ҁ́؁ρ݁ʁ؁݁ہ́؁ցցہ܁Ձ؁ā؁ҁ܁ځՁˁӁӁρցՁځفӁӁс݁ց؁܁ށفՁ؁ȁ́؁ׁ́ہʁ߁ԁЁցځ́ցՁ߁́ہρفہށԁ΁ǁԁׁ΁ссŁցҁԁځށԁفсׁԁ؁ˁҁՁӁ݁Ё΁ЁځԁׁցЁցӁ؁؁ЁЁՁׁہځЁӁρց܁ցہҁ؁ہҁށہ΁Ձ΁ցˁˁ́ց؁ǁԁ́ՁفЁ΁ҁЁЁԁԁ߁ցՁӁׁ́܁ׁҁӁہӁ܁ցԁҁρɁ݁܁ŁہׁځӁˁ߁ˁ؁Ӂҁ́сفӁցɁсځځفЁՁԁԁׁԁ΁ׁ́ρׁׁ́сʁ؁ځցՁ݁сҁہρففсׁׁځ؁فЁȁ߁Ձف ЁЁ߁́؁ҁہӁՁ΁ցׁρЁׁԁՁ΁ҁ܁Ɂցҁցفׁ߁ԁցցׁځցׁɁ؁ԁفсԁӁǁ܁Ӂفԁف܁ځځہ́ԁށہ؁сցЁЁ؁Ձׁ܁܁ՁځɁρӁցہځӁʁ݁́فҁԁсցÁɁԁρ΁Ёˁ΁΁Ɓʁȁ́Ɂȁˁҁ́ЁǁЁсƁ́΁ʁ́ށ߁܁܁ہف܁߁߁܁݁߁݁Ձ߁݁݁ہہ߁݁ށ߁܁߁ف߁܁܁݁݁߁݁ف݁ށ߁ہ߁ށށށށ߁ځف߁ہ܁܁ށہ݁݁߁߁܁܁ށ݁؁ׁ߁ց݁ցف߁݁فށ݁ށ܁؁߁ځ߁ށ܁߁ˁŁȁ́ˁʁҁāÁ́Łρρˁʁԁ́Ɂʁρ΁ˁɁƁƁ́́ҁ́ʁǁӁՁȁρÁ́ҁρӁˁƁʁρƁ́́āǁƁҁˁ́Ɓρ́ȁʁˁρƁ́ÁɁȁсɁρȁ́́ȁˁ΁ρ́с́ہԁρρȁЁӁс΁сʁʁǁ́ʁЁفށ߁݁ށs݁߁߁ށ߁߁߁ށށ݂߁Ӂځҁ΁ցƁʁԁρ΁ӁŁ́ǁρȁсЁԁҁЁԁӁՁρ́́ˁɁȁԁρҁсˁցҁՁȁс́ˁӁЁʁӁҁӁ́ˁ΁ЁځсˁցցҁρӁҁՁҁ΁ԁՁԁɁ́΁ׁʁсفׁ݁߁߁܁ށށ؁߁ց݁́݁܁Ёցҁցׁ́сففށՁׁȁ؁߁ՁՁӁ́Ёށׁ܁݁ԁ́ЁЁ܁ہ́߁ہ́Ձ߁ف؁́ӁՁ܁ӁہсǁہՁՁȁҁ́ҁفՁʁځ؁ԁՁ݁فށ݁݁ځށƁ܁ځفӁ߁ځفсՁ܁́ҁ݁فځӁԁ߁ҁށ܁ԁځՁ܁ׁ؁ցԁفˁ݁فԁՁρс݁߁ف܁ρׁԁՁفځ΁ځЁ́Ӂ܁܁ށ݁؁ׁ܁ˁԁ݁ԁفׁӁсցځց߁ځցՁ؁܁́ہҁہցہցځށցہʁ݁ՁՁ܁ӁفՁԁӁށӁفցف́Łہׁ߁́ہЁׁՁցЁׁفˁہӁځՁށҁففցށӁ߁ف؁؁ЁҁށՁہՁՁ݁؁ځ܁ہ܁ցفׁفՁҁׁ݁݁ف܁ځ́܁ցށ́܁ԁցԁԁӁށҁہցׁفځہ؁ׁׁفہ΁ցԁׁс́ӁӁ́܁ρ݁؁ԁ́؁ԁ؁فЁԁف݁ҁ܁فށЁց݁ՁہׁՁށ݁ځځ؁ہفށҁԁρ؁ځׁ݁ҁҁЁہ܁ށρځ݁ԁׁЁ܁؁Ёցсہҁ݁Ӂ݁ҁ߁ׁԁ؁؁ށ؁܁ׁځсǁށсف؁́݁ЁӁہ؁؁ցށ܁؁ӁՁցہɁ́ց؁Ձցف݁сځށ؁ށہҁہ́؁ԁ܁Ձ܁ځс܁с܁ׁفځށہفՁځցہՁׁځفԁՁց݁ρ܁ρҁց߁ށՁЁԁՁցՁсʁցӁׁʁρ́ρځ؁Ձ́сہ݁ہځ݁ցЁہсӁʁӁԁ́ԁہށׁԁЁہׁρ݁فՁցׁԁށցׁ́ԁہӁہ݁ԁ܁؁݁ρ߁Ձ؁ҁЁȁ߁́΁ہցׁ́݁فځȁҁ݁ЁցЁځׁсЁ݁ԁׁӁԁ΁܁ׁ́ՁԁہˁہЁفˁ߁΁ف܁ށفځށׁ߁܁΁ځ؁܁ҁׁ܁ҁ߁ہځӁځہҁ߁ׁ߁ׁЁЁׁف΁؁ցځفށ؁ށفځ؁сԁ΁ԁρ؁сՁҁցˁЁƁӁہ΁ށہ݁сށՁځف؁ЁҁفׁՁ݁فށсہށہ܁ԁӁ߁ց܁Ձρρ؁Ӂҁҁρҁفށ݁݁ځсӁځˁԁӁ݁Ӂ΁сف݁сہ΁ځԁށՁЁفցށҁځԁՁ΁ځہفށ؁݁݁ҁ݁ہ؁ԁہρׁՁׁ́Ӂʁہ߁ہ؁݁ہׁ΁Ձʁځ܁ށԁЁȁׁ݁ՁЁށ܁ԁ߁ځӁفځہׁہׁ́ځցс܁́ځ܁ӁԁځҁρӁՁցځԁӁׁсӁՁ؁΁؁ցӁفځہ؁Ӂρց݁܁߁ׁفف܁فف݁߁ԁЁ߁ׁۂEځȁ߁ׁρǁҁ؁݁́فԁށρρ܁ہ܁߁ہ܁؁ׁہ܁́ՁفہځՁҁՁ؁ہсӁρ؁Ёہρ݁߁݁؁ف݁ցׁ݁ށ܁߁ށցɁӁʁсԁՁ߁Ձفցρ܁ҁЁ߁Ɂ΁Ёρ΁ցՁف؁؁ЁՁׁӁށс؁ҁցҁԁ؁ہ݁сځс܁ˁсہԁցف݁Ձځ́сׁ΁Ёȁځ߁ԁЁԁՁفׁց؁ہՁցځځہӁځځρ́ρӁρځҁҁӁ݁܁߁Ձԁׁ߁ށ߁܁ԁف؁܁؁؁ӁہՁׁہ؁؁с߁؁ځׁҁ݁ց؁ցЁ܁فЁׁց݁ցЁЁށׁҁׁہځ܁؁ҁρՁց΁ہсӁՁցׁށ݁فցՁÁÁÁʁŁƁ́ȁȁɁŁÁƁŁЁȁāāƁƁɁǁɁ؁ہށׁ݁ځ؁ہ݁݁ځׁ؁߁ҁ߁ׁ݁܁ׁ߁݁؁ہ܁ށށ݁ځ݁ځׁ܁߁ׁׁށ܁ہށف݁܁܁ف݁݁ځځށ݁߁ށ܁ց߁ׁށ߁߁ԁہՁ݁܁ށ܁ہ݁ځ؁߁؁܁Ӂށ܁ցفہف݁ށ܁݁݁܁ށف؁ہށ߁߁ށ܁߁݁܁߁݁߁݁فށށ߁ف܁Ձ߁܁ځف܁ׁ܁ց߁ځցցՁ߁ށ߁܁فہځ́݁ց܁܁ہׁ܁فځ߁Ӂށہցہفف߁܁ہ݁܁߁فށӁ܁݁Ձ߁݁܁݁߁݁؁ށځ߁؁݁ށ߁܁߁ځ܁ށ߁ށځ܁܁ԁ߁فہ܁сށ߁ށ߁܁܁܁ځׁׁցځہ߁ށ܁ف݁ہہفށ߁߁Ձށ݁ށہ݁؁ہ؁؁ׁ߁ށՁہׁ݁؁ׁځہځ؁؁ہ݁݁܁߁ف߁߁ށׁ߁Ё܁ہ݁ہ܁؁ށށށ܁ځ߁܁ځׁ߁ׁՁ߁ہ݁ہށ܁Ձ߁܁ׁׁ߁ׁց߁ف݁݁݁ށ܁ށ܁ف߁܁ہ߁߁ہ݁ہ߁ځցہ؁܁߁ށށցׁف߁߁ށ݁Ӂہԁ݁܁ށ߁ށف߁Ձ߁ہ߁ׁ݁ف݁ف݁ށށ܁ځӁׁ܁ف܁܁؁ҁ݁߁ށցށ߁ށہ߁ށ݁فՁ݁ցف߁ށ܁߁ׁہ܁݁߁ȁʁȁˁǁƁƁρŁāÁǁāƁɁˁȁŁȁȁŁÁŁÁȁǁ΁ǁƁǁɁʁɁɁˁŁʁÁÁāǁȁƁʁʁÁʁāŁǁǁāā́ǁƁÁɁÁÁŁāفށہ݁ہ܁ށف܁فځف܁ف؁Ӂсށށԁ܁ށ́܁؁݁݁܁܁܁݁ށ߁ׁ܁܁فցׁ؁݁ف؁؁ށځ߁߁Ձށׁ܁܁݁ρ݁ہ܁ށց݁ہ؁Ӂցځ܁݁݁ف߁ҁ߁߁܁܁ہځ܁ځ݁ځ߁ׁՁفׁׁ݁Ձށ߁؁؁ہہځ܁ہށ߁܁ځ߁ށ݁߁ց܁ׁ߁ҁ݁܁߁́ځ݁ځفӁց߁ہ݁ځ݁؁ցځ݁ށ݁ہ݁؁߁ށށԁہց݁ցہׁ߁ށՁفՁ݁߁܁ށ݁ہ߁߁߁܁܁ށՁ߁ځ؁ځہ݁ہ߁ففցށށہ؁Ձ߁܁؁ށׁցځ߁݁ځ߁܁ށفށށ݁Ձ߁ށ݁؁߁؁܁߁؁ہ؁ׁށف݁؁߁߁߁Ӂ݁فށՁށ΁Ձہցρׁځ߁ށԁځӁԁӁ܁߁߁ׁՁ؁ف؁ށ܁Ձց߁݁ځف݁Ӂց݁ԁՁށ܁ށہ߁܁ҁ܁߁؁߁߁ځ݁ցՁ݁߁܁ځ߁݁܁ځ؁ځށށׁӁ߁݁ځ܁߁؁܁ށՁׁ݁فف߁فށہ߁Ձԁ݁߁ځ܁ہӁ݁ہہց́ށ߁ׁ؁ہففہہف؁ԁ؁߁݁؁܁ҁف݁߁ف݁ށށہ߁ԁ؁с܁߁ׁففցف߁݁܁ہ܁݁݁ځہ݁ځށ߁ف߁ց݁ځہہ߁ԁ߁ہہف݁ށہہ؁ف؁߁߁؁ށ߁ف߁߁Ё݁؁ف݁܁߁߁݁ρ݁܁ځށށفځс߁߁ށہށ߁ہہہ؁܁܁܁܁߁܁Ձԁ߁ށہ߁߁ށӁށցځՁ݁߁ށԁ߁߁߁܁܁؁߁߁ہځ܁܁؁ځفف؁݁ށځՁہ؁сف݁߁ҁہށށՁ݁߁Ձ؁܁؁ہށ݁ǁāˁÁāɁāƁŁŁȁʁЁƁȁ́āƁсƁāÁÁȁƁˁƁǁÁÁÁāɁŁ́ɁāƁǁāˁȁǁ́ʁŁ́ˁ΁ǁʁɁȁǁˁȁƁƁсɁҁЁāρ݁߁ف܁؁ށہށ܁ׁ݁߁؁ށ݁؁ށ߁݁݁ہ܁ށہՁ߁ց߁݁܁܁ف݁ށށ߁ہ߁ށ݁ށ݁߁ށ߁ށہށہՁׁ߁܁ށ߁ہՁ؁݁ށ݁ہށށ݁Ձ܁ځ߁߁ف܁߁فہځցفځفށ߁߁ށہށށف킀ށ߁ׁ߁ہ߁ہׁׁ݁݁ځށ݁%E0,*)**%1(  ށށށ݁ցځہ܁݁ہ߁߁сƁ́ɁρɁƁʁˁӁ΁ŁʁԁƁˁɁɁ؁΁ҁɁ́ɁρˁʁƁˁāЁʁɁˁˁǁȁˁʁɁ́ʁɁ́́с΁Ɂ΁ŁāāӁˁǁ́΁сÁŁЁ́́ÁƁ΁ÁŁƁӁ܁ցځׁ́ՁځځՁցҁԁفځЁ؁߁́ہ؁فځځ؁ԁׁ؁܁Ӂ߁؁߁ׁ́݁ցفځځفځځف܁ځׁށځ؁߁сӁ؁܁؁ׁӁ݁فށ؁܁Ӂҁځށԁ؁߁Ёԁс݁݁ہځՁ݁ہ܁ځԁ΁ρссҁف݁߁ށށȁ߁ށցӁށځ܁ׁ݁Ӂ܁ہׁځ݁܁ӁЁ܁ցׁ́Ձفҁ߁ԁՁ܁فԁ݁ց؁݁݁ρׁہہׁׁ߁܁ׁځށЁہށЁՁفˁށҁׁفҁ߁ց߁؁Ёԁ݁ԁځׁ؁ׁفہՁցՁ݁ށցځցāށ؁ց́؁ҁفՁށՁځՁցՁ؁ށԁ؁ҁ܁Ձ݁ށԁځށׁ܁ԁҁԁˁہՁׁށ߁߁ہ݁с́܁с؁ށԁفށρ߁ρށՁفҁށԁہہӁށ́؁ށԁՁ߁ԁցց܁ށҁف؁ځсہ݁݁ՁہՁ؁ځ݁ցځˁفՁށ́ځ؁ρ݁ށځ߁ځҁ܁݁?߁ցρӁ؁݁Ձށ܁؁ԁЁ݁сρ߁ځ܁܁݁ցՁځՁفہځӁ΁ށׁف݁݁߁؁ׁ܁݁ہ؁فځҁ؁ԁ߁΁Ձ߁߁܁߁ׁ݁فՁҁׁ݁݁ځӁс́߁߁Ӂׁ݁ց݁ށׁ́ځ܁Ӂށ؁ԁցځ؁ہсցӁہ߁܁ہׁفӁρӁЁف܁ׁ܁ففށ݁ہՁށӁׁԁށ́ځցׁׁՁفցց܁с܁ہԁՁށށ߁؁؁݁ӁՁ݁́ށՁׁ܁ׁہہҁӁЁ܁ׁсցہځׁՁځρ؁с܁فρՁӁ؁ցہہ݁ف߁߁ՁЁف؁ف܁́Ձفށف݁ہց́ځ܁فׁՁفׁ؁ӁӁ܁܁ށӁ߁؁ځԁҁ݁ځՁہ܁ӁՁԁہ݁ځځρ܁Ձہہفׁ܁ׁ݁Ձ߁ԁӁ܁Ձ߁Ӂ߁߁݁ցׁ݁ʁׁځށفˁׁہ܁ׁԁׁ؁Ёځ؁݁ցځԁӁ؁فׁ؁ځ݁߁߁݁Ӂׁ܁Ё߁΁́ցǁ߁فׁՁρԁԁ݁܁ӁځӁށ́Ձ؁݁ف́ځفځсӁ܁؁ށ܁ځځՁׁ܁ׁӁ܁܁ہ݁сށف܁ׁ߁؁ځȁ܁ځځӁ݁߁ցځρӁ܁݁فӁ΁ځׁفՁցЁӁ܁сށہفՁЁہց؁ہہցځ߁߁؁ށځԁہށہρہׁՁفρځρ܁؁ہ߁ӁՁ؁ہ܁ՁففځցցցՁՁׁ؁فӁ΁ցҁفՁӁсفځՁځׁ܁؁ففہ߁܁ف߁ށ߁ԁ܁܁́܁ہ߁߁܁ׁׁ܁ԁفԁځ܁߁܁ׁ܁܁܁Ӂ܁߁ځ܁Ӂ݁؁ցρ݁ՁځށՁсҁ߁ہ߁ˁց߁ށفށفׁځہցځցԁ߁ہ؁ځށہށށ߁ށށށЁف݁݁߁ԁց܁݁ԁہށ́فہԁρځځсՁЁفρف܁ց݁ՁففՁ؁ԁׁ߁܁݁߁ցс́ށ܁΁ށс܁݁ҁՁ܁Ӂ܁݁؁߁ށׁށ݁ځ܁ׁЁՁ݁ہӁҁہՁ́ށفځÁāÁŁÁÁÁŁŁƁʁŁÁāÁÁȁŁāŁȁƁɁƁ܁܁ہ߁ށ݁ҁՁ؁ہ܁ف؁߁݁؁ށ߁ہ؁Ձ݁؁܁ځׁہ߁ށ܁ށׁ݁ف݁؁߁݁܁فށׁځفց܁ځ݁ԁށׁ݁ہ݁ف߁܁߁ށفہ߁܁؁ׁځہށہށ݁ցہ؁݁߁؁ہ݁݁ځ܁ށށ݁߁݁ށف؁ف߁ځ߁ށׁځށׁ߁сہہځ߁ׁ܁ځہفف߁؁ԁځ܁߁ہ݁ށہ݁ށف܁݁فށ߁߁فف݁فہށށށف߁܁܁߁ցށفށہ߁Ӂ߁܁݁Ձށ߁ށ܁؁ށہځ݁ځށׁՁ݁݁ցفށҁفށځځ܁߁߁؁с߁ށہށށہہ܁ށՁفځ݁ہށׁځށՁށ܁߁ہ݁݁܁ށ݁܁݁ԁ݁ځׁǁށځ؁ہفہ߁ہׁځځہہ݁ف؁ځ؁܁߁فށށف؁؁ځՁށӁ݁ہށ݁߁݁ց߁߁فށׁ݁فց߁ށ߁߁ׁفׁׁ߁܁ځ݁܁ށ߁ہف߁ہ܁܁ށ݁܁ہׁ߁ہ߁ށށہځ݁ԁ߁܁߁܁ށ܁ہ݁݁ځЁ݁߁߁݁؁ہׁށہ݁߁ہׁށفځԁځށ߁݁݁ځށׁفففہ߁ԁ߁؂߁܁݁ށ߁߁ہ߁؁ށށށ݁߁ہ݁ށہb肥7ށ؁ځ܁܁܁߁܁܁ށށށ؁ځہہށց܁ځ܁ہځ؁ށ݁݁ہ܁āɁɁ́ÁǁŁȁЁŁāЁÁƁāɁǁƁ́āŁˁƁɁāŁŁƁ́ÁȁˁŁʁȁȁʁÁÁŁŁŁǁɁǁāÁȁŁŁƁŁāŁ܁ځ؁Ձ߁ށ݁ځ߁ہ؁ہށ؁؁ׁ݁܁ځ߁ځց؁فցہځρ݁ց؁߁܁ׁׁ܁ށׁށفށ܁܁܁ځ߁؁߁݁сځՁ߁܁ށׁ݁؁ہށ߁ہ߁Ձځ߁ׁׁ߁߁݁ցԁ݁ځ؁؁݁فԁց߁Ёہ؁؁ށځہ݁فׁففށׁׁށ܁ށ߁߁ف܁فށՁց߁ځ܁ہ܁Ձ߁ځہցށց߁ہ܁ҁ؁Ձفہ؁ցځځҁف݁ځفցЁ݁܁ρ݁؁߁ՁځށсہԁށہށفՁށځہׁށՁ݁݁؁ځ݁Ձ܁܁ف߁فہځ܁Ձ܁ҁԁ߁ҁ؁΁Ӂ݁ځہہ؁ԁ߁ށ݁܁ԁׁցׁˁӁց݁ځցԁ݁߁݁ہ݁ہ́܁ف߁߁Ձց݁ځہց߁ށׁہ߁Ёځ߁ҁցہށہՁ܁ׁ݁߁߁فҁ؁ہށсہہہفҁ߁ہށہ߁߁܁ԁ܁فځׁہ߁ҁӁց܁ҁ܁΁ځ߁ځہ܁ށԁ݁ށ߁݁ہ؁ف݁فہځށ܁ρށ؁߁ہ܁܁߁݁߁ށ܁݁߁Ձ؁Ӂ߁ځށށЁہ܁܁فށ܁ہ߁݁ށցԁفׁցׁށ݁߁ہׁ؁ށށ܁݁߁ׁ߁ցځׁ߁܁ہ݁ށׁց܁ׁځ܁ׁցׁ؁܁ҁ؁؁Ձځفށށہށځ߁ҁځ؁ځށځсف܁ځށށ܁݁ہ݁ށށցف߁ف-)ց܁ځՁׁ߁ځ߁ԁہہفց߁؁فہہځӁՁ݁Ձځ݁ف܁ԁففށہ݁ځځׁׁ݁߁ׁׁׁ܁ف܁؁Ձށށց݁ށӁځ܁ہہ܁܁ՁQҁ؁ց܁ف܁ׁ݁݁ہفׁ́ԁ؁؁ہԁ܁؁ہՁށށہفށہׁ߁܁ځ߁ށԁ݁݁Ձ؁فށ܁ہ܁ށӁށځ؁ففҁ؁ہՁӁ؁݁ҁց߁܁݁ρց݁ρ߁ہ܁΁݁ہ܁؁ρށցց؁ׁف߁ށ߁ԁ܁ށρ݁܁܁؁ׁ߁ҁρԁށށ߁܁ށҁفӁ܁݁܁ׁׁ݁ځցہ߁ށҁӁځہہ߁߁ہρ܁ہ܁ԁށہՁځ߁߁؁فׁԁށځہāŁÁȁÁƁÁŁāÁÁʁȁŁʁāÁāɁρȁŁāāҁȁҁ́́ЁӁˁЁсЁӁˁҁρЁρǁׁсɁ΁΁΁ҁ́΁܁݁݁߁߁܁߁߁ށځ߁ہ݁߁ށ߁ށ߁ց    !-!'15*1#.& "!  diff --git a/ObservationSim/SimSteps.py b/ObservationSim/SimSteps.py index 685b1309ccbcfbe188bca21ce35ffee624662f75..5b7c8bf86d2f0b3c9d0f8789ae2fc9d7d525c665 100644 --- a/ObservationSim/SimSteps.py +++ b/ObservationSim/SimSteps.py @@ -16,6 +16,9 @@ from ObservationSim.Instrument.Chip import ChipUtils as chip_utils from ObservationSim.Instrument.Chip import Effects from ObservationSim.Instrument.Chip.libCTI.CTI_modeling import CTI_sim +from ObservationSim.MockObject import FlatLED +from ObservationSim.Instrument.FilterParam import FilterParam + class SimSteps: def __init__(self, overall_config, chip_output, all_filters): self.overall_config = overall_config @@ -60,6 +63,51 @@ class SimSteps: readoutTime = chip.readout_time) return self.h_prim, self.h_ext + def add_sky_flat_calibration(self, chip, filt, tel, pointing, catalog, obs_param): + + if not hasattr(self, 'h_ext'): + _, _ = self.prepare_headers(chip=chip, pointing=pointing) + chip_wcs = galsim.FitsWCS(header = self.h_ext) + + expTime = obs_param["exptime"] + skyback_level = obs_param["flat_level"] + + filter_param = FilterParam() + sky_level_filt = obs_param["flat_level_filt"] + norm_scaler = skyback_level/expTime / filter_param.param[sky_level_filt][5] + + flat_normal = np.ones_like(chip.img.array) + if obs_param["flat_fielding"] == True: + flat_normal = flat_normal * chip.flat_img.array / np.mean(chip.flat_img.array) + if obs_param["shutter_effect"] == True: + flat_normal = flat_normal * chip.shutter_img + flat_normal = np.array(flat_normal, dtype='float32') + + + if chip.survey_type == "photometric": + sky_map = flat_normal * np.ones_like(chip.img.array) * norm_scaler * filter_param.param[chip.filter_type][5] / tel.pupil_area * expTime + elif chip.survey_type == "spectroscopic": + # flat_normal = np.ones_like(chip.img.array) + if obs_param["flat_fielding"] == True: + + flat_normal = flat_normal * chip.flat_img.array / np.mean(chip.flat_img.array) + if obs_param["shutter_effect"] == True: + + flat_normal = flat_normal * chip.shutter_img + flat_normal = np.array(flat_normal, dtype='float32') + sky_map = calculateSkyMap_split_g( + skyMap=flat_normal, + blueLimit=filt.blue_limit, + redLimit=filt.red_limit, + conf=chip.sls_conf, + pixelSize=chip.pix_scale, + isAlongY=0, + flat_cube=chip.flat_cube) + sky_map = sky_map * norm_scaler * expTime + + chip.img += sky_map + return chip, filt, tel, pointing + def add_sky_background(self, chip, filt, tel, pointing, catalog, obs_param): flat_normal = np.ones_like(chip.img.array) if obs_param["flat_fielding"] == True: @@ -93,12 +141,29 @@ class SimSteps: isAlongY=0, flat_cube=chip.flat_cube, zoldial_spec = filt.zodical_spec) - sky_map = sky_map + filt.sky_background + sky_map = (sky_map + filt.sky_background)*obs_param["exptime"] # sky_map = sky_map * tel.pupil_area * obs_param["exptime"] chip.img += sky_map return chip, filt, tel, pointing + def add_LED_Flat(self, chip, filt, tel, pointing, catalog, obs_param): + + if not hasattr(self, 'h_ext'): + _, _ = self.prepare_headers(chip=chip, pointing=pointing) + chip_wcs = galsim.FitsWCS(header = self.h_ext) + pf_map = np.zeros_like(chip.img.array) + if obs_param["LED_TYPE"] is not None: + if len(obs_param["LED_TYPE"]) != 0: + print("LED OPEN--------") + + led_obj = FlatLED(chip, filt) + + led_flat = led_obj.drawObj_LEDFlat(led_type_list=obs_param["LED_TYPE"], exp_t_list=obs_param["LED_TIME"]) + pf_map = led_flat + chip.img = chip.img + led_flat + return chip, filt, tel, pointing + def add_objects(self, chip, filt, tel, pointing, catalog, obs_param): # Prepare output file(s) for this chip @@ -416,6 +481,13 @@ class SimSteps: return chip, filt, tel, pointing def quantization_and_output(self, chip, filt, tel, pointing, catalog, obs_param): + + if obs_param["format_output"] == True: + self.chip_output.Log_info(" Apply 1*16 format") + chip.img = chip_utils.formatOutput(GSImage=chip.img) + chip.nsecy = 1 + chip.nsecx = 16 + chip.img.array[chip.img.array > 65535] = 65535 chip.img.replaceNegative(replace_value=0) chip.img.quantize() @@ -450,5 +522,7 @@ SIM_STEP_TYPES = { "bias": "add_bias", "readout_noise": "add_readout_noise", "gain": "apply_gain", - "quantization_and_output": "quantization_and_output" + "quantization_and_output": "quantization_and_output", + "led_calib_model":"add_LED_Flat", + "sky_flatField":"add_sky_flat_calibration", } \ No newline at end of file diff --git a/config/obs_config_Calibration.yaml b/config/obs_config_Calibration.yaml new file mode 100644 index 0000000000000000000000000000000000000000..99847ee21c9df034428663039003d2cb4169c0f9 --- /dev/null +++ b/config/obs_config_Calibration.yaml @@ -0,0 +1,66 @@ +--- +############################################### +# +# Configuration file for CSST simulation +# For single exposure type: +# SCI-WIDE +# CSST-Sim Group, 2024/01/08 +# +############################################### + +# Observation type +obs_type: "DARK" + +# Define list of chips +run_chips: [8] + +# Define observation sequence +call_sequence: + # Accumulate fluxes from objects + led_calib_model: + #"LED": ['LED1','LED2','LED3','LED4','LED5','LED6','LED7','LED8','LED9','LED10','LED11','LED12','LED13','LED14'] or null + #'LED1': '275', 'LED2': '310', 'LED3': '430', 'LED4': '505', 'LED5': '545', 'LED6': '590', 'LED7': '670', + #'LED8': '760', 'LED9': '940', 'LED10': '940', 'LED11': '1050', 'LED12': '1050','LED13': '340', 'LED14': '365' + LED_TYPE: ['LED5'] + LED_TIME: [1.] + + sky_flatField: + exptime: 150. # [s] + shutter_effect: YES + flat_fielding: YES + flat_level: 20000 + flat_level_filt: g + # Apply PRNU to accumulated photons + PRNU_effect: {} + # Accumulate photons caused by cosmic rays + cosmic_rays: {} + # Add Poission noise and dark current + poisson_and_dark: + add_dark: YES + # Simulate brighter fatter effects + bright_fatter: {} + # Add detector defects: hot/warm pixels, bad columns + detector_defects: + hot_pixels: YES + dead_pixels: YES + bad_columns: YES + # Apply response nonlinearity + nonlinearity: {} + # Apply CCD Saturation & Blooming + blooming: {} + # # Run CTE simulation + CTE_effect: {} + # Add prescan and overscan + prescan_overscan: {} + # Add bias + bias: + bias_16channel: YES + # Add readout noise + readout_noise: {} + # Apply gain + gain: + gain_16channel: YES + # Output the final image + quantization_and_output: + format_output: NO +... \ No newline at end of file diff --git a/config/obs_config_SCI_WIDE_phot.yaml b/config/obs_config_SCI_WIDE_phot.yaml index 172ccff6841cc7d25ae0636fc46cea32856e0f1c..df6203a8a0911acdb25ccbaf65d7b43e31918ca1 100644 --- a/config/obs_config_SCI_WIDE_phot.yaml +++ b/config/obs_config_SCI_WIDE_phot.yaml @@ -12,7 +12,7 @@ obs_type: "SCI" # Define list of chips -run_chips: [6, 7, 8, 9, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 22, 23, 24, 25] +run_chips: [8] # Define observation sequence call_sequence: @@ -59,5 +59,6 @@ call_sequence: gain: gain_16channel: YES # Output the final image - quantization_and_output: {} + quantization_and_output: + format_output: YES ... \ No newline at end of file