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SIMPLE = T / Standard FITS format BITPIX = 16 / 16 bit 2's complement integers NAXIS = 0 / Number of axes EXTEND = T / There may be standard extensions OPSIZE = 0 / PSIZE of original image ORIGIN = 'ST-DADS ' / Institution that originated the FITS file FITSDATE= ' 4/02/94' / Date FITS file was created FILENAME= 'f23n0406m.dmh' / Original GEIS header file name with _cvt ODATTYPE= 'USHORT ' / Original datatype SDASMGNU= 0 / GCOUNT of original image DADSFILE= 'F23N0406M.DMF' / DADSCLAS= 'AST ' / DADSDATE= '04-FEB-1994 03:57:09' / / SUPPORT SCHEDULE: PROGRAMMATIC DATA PROGRMID= '23N ' / program id (base 36) PR_INV_L= 'BRADY ' / last name of principal investigator PR_INV_F= 'WILLIAM ' / first name of principal investigator PR_INV_M= 'L ' / middle initial of principal investigator AFFILIAT= 'ENG ' / proposal class (eg: GO, IDT, OS) ACCPDATE= '1993314 ' / proposal acceptance date (yyyyddd) OBSET_ID= '04 ' / observation set id CALIBRAT= ' ' / calibrate data flag OBSERVTN= '06 ' / observation number (base 36) EXPACKET= 4 / expected number of source packets PRODTYPE= ' ' / output product medium type OPFORMAT= ' ' / output product format specification CALIBTYP= ' ' / calibration type : E, I or Blank CDBSDATA= 'FALSE ' / cdbs notification flag: 'CAL' or 'FALSE' / SUPPORT SCHEDULE: DATA GROUP II DATA WRD11_14= 0 / word 11/14 (0-255) PSTRTIME= '1994.034:15:44:18 ' / predicted obs. start time (yyyy.ddd:hh:mm:ss) PSTPTIME= '1994.034:15:47:28 ' / predicted obs. stop time (yyyy.ddd:hh:mm:ss) APEROBJ = 'FGS1 ' / si object aperture id APERSKY = ' ' / si sky aperture id TARG_ID = '5425_6 ' / SPSS target ID from proposal+target no. APERTYPE= 'SICS ' / aperture type (SICS, SIAS, SIDS) RA_V1 = 0.9221847422378E+02 / right ascension of v1 axis of st (deg) DEC_V1 = 0.2429263669702E+02 / declination of v1 axis of st (deg) PA_V3 = 0.2686430E+03 / position angle of v3 axis of st (deg) APEROFFX= 0.3578763E+03 / x comp of object offset in aperture (arcsec) APEROFFY= -0.6441381E+02 / y comp of object offset in aperture (arcsec) ANGLESEP= 0.0 / ang separation of target from ref obj (arcsec) DGESTAR = '0187701432F2 ' / FGS ID(F1,F2,F3) concat. w/ dom. gd. star id SGESTAR = '0187701306F3 ' / FGS ID(F1,F2,F3) concat. w/ subdom. gd. star idPA_APER = .3586870117188E+03 / position ang of aperture used with target (deg)PA_REF = 0.0 / position ang of target from ref. object (deg) SAAAVOID= '05 ' / SAA model for SAA Avoidance (range 02-99) TARAQMOD= '03 ' / target acquisition mode (values 00, 01, 02, 03)POSTNSTX= -0.2848836790729E+04 / position of space telescope x axis (km) POSTNSTY= 0.5471946076116E+04 / position of space telescope y axis (km) POSTNSTZ= 0.3249394045779E+04 / position of space telescope z axis (km) VELOCSTX= -0.6851234044701E+01 / vel of space telescope along x axis (km/sec) VELOCSTY= -0.3114048729268E+01 / vel of space telescope along y axis (km/sec) VELOCSTZ= -0.7626472218436E+00 / vel of space telescope along z axis (km/sec) RA_SUN = 0.3171359230912E+03 / right ascension of the sun (deg) DEC_SUN = -0.1643287785894E+02 / declination of the sun (deg) RA_MOON = 0.2260486981323E+03 / right ascension of the moon (deg) DEC_MOON= -0.1836294847431E+02 / declination of the moon (deg) VELABBRA= 0.0 / aberration in position of the target ANNPARRA= 0.0 / par. shift in position, non-solar sys target V2APERCE= -0.6441381E+02 / V2 offset of target from aper. center (arcsec) V3APERCE= -0.3578763E+03 / V3 offset of target from aper. center (arcsec) EQRADTRG= 0.0 / equatorial radius of target (km) FLATNTRG= 0.0 / flattening of target NPDECTRG= 0.0 / north pole declination of target (deg) NPRATRG = 0.0 / north pole right ascension of target (deg) ROTRTTRG= 0.0 / rotation rate of target LONGPMER= 0.0 / longitude of prime meridian (deg) EPLONGPM= 0.0 / epoch of longitude of prime meridian (sec) SURFLATD= 0.0 / surface feature latitude (deg) SURFLONG= 0.0 / surface feature longitude (deg) SURFALTD= 0.0 / surface feature altitude (km) MTFLAG = ' ' / moving target flag; T if it is a moving target S0INVMAG= 0.0 / S0 inverse magnitude S0XDIR = 0.0 / S0 X direction S0YDIR = 0.0 / S0 Y direction S0ZDIR = 0.0 / S0 Z direction TRK_TYPE= 'NO ' / track 48 or track 51 commanding used (T48, T51,T51_RATE= 0.0 / rate of motion commanded (arcsecs/sec) T51_ANGL= 0.0 / position angle of motion of aperture (deg) TARGDIST= 0.0 / distance to target from Earth's center (km) PAR_CORR= 'F ' / parallax correction used (T or F) RA_REF = 0.9232449170000E+02 / right ascension of reference object (deg) DEC_REF = 0.2447980000000E+02 / declination of reference object (deg) / ONBOARD EPHEMERIS MODEL PARAMETERS EPCHTIME= 286761600.0000 / epoch time of parameters (secs since 1/1/85) SDMEANAN= 0.2722709432285E-14 / 2nd deriv coef for mean anomaly (revs/sec/sec) SDMA3SQ = 0.3530619569189E-05 / 3 * (SDMEANAN**2) radians/second**2. HSTHORB = 2895.909849538 / half the duration of the ST orbit (seconds) CIRVELOC= 7564.121341624 / circular orbit linear velocity (meters/second) COSINCLI= 0.8792520218204 / cosine of inclination ECCENTRY= 0.1093367024433E-02 / eccentricity ECCENTX2= 0.2186734048866E-02 / eccentricity times 2 ECBDX4D3= 0.1742756259826E-08 / eccentricity cubed times 4/3 ESQDX5D2= 0.2988628625295E-05 / eccentricity squared times 5/2 ECBDX3 = 0.3921201584609E-08 / eccentricity cubed times 3 FDMEANAN= 0.1726573084033E-03 / 1st derivative coef for mean anomly (revs/sec) RCASCNRD= -0.1297418279920E-05 / rt chge right ascension ascend node (rads/sec) RCASCNRV= -0.2064905325070E-06 / rt chge right ascension ascend node (revs/sec) ARGPERIG= 0.2862991642248 / argument of perigee (revolutions) MEANANOM= 1.703369091621 / mean anomaly (radians) RCARGPER= 0.1850929494844E-06 / rate change of argument of perigee (revs/sec) RASCASCN= 0.6744398513885E-01 / right ascension of ascending node (revolutions)SINEINCL= 0.4763568852496 / sine of inclination SEMILREC= 6972421.380222 / semi-latus rectum (meters) TIMEFFEC= 286768841.0000 / time parameters took effect (secs since 1/1/85)OBSSTRTT= 286904658.0000 / predicted obs. start time (secs since 1/1/85) / PROPOSAL INFO: Instrument Configuration CONFIG = 'FGS ' / proposed instrument configuration OPMODE = 'TRANS ' / proposed operation mode SPEC_1 = 'NOCHANGE ' / spectral element SPEC_2 = 'PUPIL ' / spectral element SPEC_3 = ' ' / spectral element SPEC_4 = ' ' / spectral element APER_1 = '1 ' / instrument aperture APER_2 = ' ' / instrument aperture APER_3 = ' ' / instrument aperture APER_4 = ' ' / instrument aperture / PROPOSAL INFO: Target Description TAR_TYPE= 'POINT TARGET ' / target type TARDESCR= 'CALIBRATION;ASTROMETRIC;' TARGCAT = 'CALIBRATION ' / first target category TARKEY1 = 'ASTROMETRIC ' / target key description for targcat ALIAS1 = '(GSC 973) ' / synonym for target name / PROPOSAL INFO: Flux Information MAG_V = 12.48999977112 / expected V Magnitude SURF_V = 0.0 / expected V surface brightness MAG_B = 0.0 / expected B Magnitude SURF_B = 0.0 / expected B surface brightness MAG_U = 0.0 / expected U Magnitude SURF_U = 0.0 / expected U surface brightness MAG_R = 0.0 / expected R Magnitude SURF_R = 0.0 / expected R surface brightness COL_B_V = 0.0 / expected B-V color COL_U_B = 0.0 / expected U-B color COL_V_R = 0.0 / expected V-R color E_B_V = 0.0 / E(B-V) EXTNCT_V= 0.0 / extinction in V / PROPOSAL INFO: Exposure Information CMD_EXP = 90.00000000000 / commanded time per exposure (from TRANS) / PROPOSAL INFO: Moving Target Information / PROPOSAL INFO: Target Properties REDSHIFT= 0.0 / target redshift from proposal PARALLAX= 0.0 / target parallax from proposal RA_PROP = 92.32449170000 / target right ascension from proposal (degrees) DEC_PROP= 24.47980000000 / target declination from proposal (degrees) PEQUINOX= 'J2000.0 ' / equinox of coordinate system from proposal MU_RA = 0.0 / target proper motion from proposal (degrees RA)MU_DEC = 0.0 / target proper motion from proposal (degrees DECMU_EPOCH= 'J2000.0 ' / epoch of proper motion from proposal SP_TYPE = ' ' / target spectral type from proposal RAD_VEL = 0.0 / target radial velocity from proposal (km/sec) / PROPOSAL INFO: Spatial Scan Info SCAN_TYP= 'N ' / C:bostrophidon; D:'C'with dwell; N:not applicabSCAN_WID= 0.0 / scan width (arcsec) ANG_SIDE= 0.0 / angle between sides of parallelogram (deg) DWELL_LN= 0 / dwell pts/line for scan pointing (1-99,0 if NA)DWELL_TM= 0.0 / wait time (duration) at each dwell point (sec) SCAN_ANG= 0.0 / position angle of scan line (deg) SCAN_RAT= 0.0 / commanded rate of the line scan (arcsec/sec) NO_LINES= 0 / number of lines per scan (1-99,0 if NA) SCAN_LEN= 0.0 / scan length (arcsec) SCAN_COR= 'C ' / scan coordinate frame of ref: celestial,vehicle / PROPOSAL INFO: Auxiliary PARENTID= 0 / PEP proposal identifier of the parent proposal / EXPOSURE INFORMATION EQUINOX = 'J2000 ' / equinox of the celestial coordinate system SUNANGLE= 137.3445129395 / angle between sun and V1 axis (deg) MOONANGL= 136.7749176025 / angle between moon and V1 axis (deg) SUN_ALT = -44.78225326538 / altitude of the sun above Earth's limb (deg) FGSLOCK = 'FINE ' / commanded FGS lock (FINE,COARSE,GYROS,UNKNOWN) DATE-OBS= ' 3/02/94 ' / UT date of start of observation (dd/mm/yy) TIME-OBS= '15:44:20 ' / UT time of start of observation (hh:mm:ss) EXPSTART= 49386.65578704 / exposure start time (Modified Julian Date) EXPEND = 49386.65798553 / exposure end time (Modified Julian Date) EXPTIME = 136.7749176025 / exposure duration (seconds)--calculated EXPFLAG = ' ' / Exposure interruption indicator / SUN & MOON COORDINATES XSUN = 103673224.8071 / Sun position: geocentric J2000 frame (km) YSUN = -96217967.30400 / Sun position: geocentric J2000 frame (km) ZSUN = -41717038.43665 / Sun position: geocentric J2000 frame (km) VXSUN = 21.67755182968 / Sun velocity: geocentric J2000 frame (km/sec) VYSUN = 19.30758046539 / Sun velocity: geocentric J2000 frame (km/sec) VZSUN = 8.372349086110 / Sun velocity: geocentric J2000 frame (km/sec) XMOON = -244955.7445139 / Moon position: geocentric J2000 frame (km) YMOON = -254093.9098358 / Moon position: geocentric J2000 frame (km) ZMOON = -117154.6815097 / Moon position: geocentric J2000 frame (km) VXMOON = 0.7709710642260 / Moon velocity: geocentric J2000 frame (km/sec) VYMOON = -0.6884874928437 / Moon velocity: geocentric J2000 frame (km/sec) VZMOON = -0.1998197357365 / Moon velocity: geocentric J2000 frame (km/sec) / OBSERVATION IDENTIFICATION INSTRUME= 'FGS ' / instrument in use ROOTNAME= 'F23N0406M ' / rootname of the observation set / TARGET & PROPOSAL ID TARGNAME= 'OF6-REF ' / proposer's target name RA_TARG = 92.32449170000 / right ascension of the target (deg) (J2000) DEC_TARG= 24.47980000000 / declination of the target (deg) (J2000) PROPOSID= 05425 / PEP proposal identifier PEP_EXPO= '6.0000000 ' / PEP exposure identifier including sequence LINENUM = '6.000 ' / PEP proposal line number SEQLINE = ' ' / PEP line number of defined sequence SEQNAME = ' ' / PEP define/use sequence name END
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