SIMPLE = T / DATA IS IN FITS FORMAT BITPIX = 16 / 16 BITS TWOS COMPLEMENT INTEGERS NAXIS = 2 / NUMBER OF AXIS NAXIS1 = 48 / PIXELS ON 1st MOST VARYING AXIS NAXIS2 = 48 / PIXELS ON 2nd MOST VARYING AXIS DATAMIN = 2010 / MIN DATA VALUE IN FILE DATAMAX = 17112 / MAX DATA VALUE IN FILE DATAMEAN= 14787 / MEAN DATA VALUE IN FILE ASEC_PIX= 0.30 / PLATE SCALE in arcseconds/pixel DIVISOR = 3 / Normalization value ORIGIN = 'Institute for Astronomy' TELESCOP= 'NASA IRTF' INSTRUME= 'NSFCAM, The Superhero Camera' OBSERVER= 'NSFCAM Galileo support program' OBJECT = 'Europa' COMMENT = '.' IRAFNAME= 'data0101.b' BEAM = 'B' / Object(A) or sky(B) TIME_OBS= '04:15:56.885111' / UT TIME OF ACQISTION ('hh:mm:ss.ss') DATE_OBS= '2003-07-04' / UT DATE OF ACQUISITION ('yyyy-mm-dd') ITIME = 0.0200 / INTEGRATION TIME IN SECONDS CO_ADDS = 3 / NUMBER OF INTEGRATIONS OBSMODE = 2 / obsmode is Pair(AB) CYCLES = 10 / Number of cycles TOTALSH = 500 / Shift&Adds parameter SHIFTADD= 1 / Number of Actual Shift&Adds in image NUMARRAY= 1 / Number of Sub Arrays CAMMODE = Basic / Camera Mode ARRAY1 = 96,96,48,48 / x,y,wid,hgt of data array SP_BINS = 2000,200,P / ShiftAdd Peak,Binlen,Method NDR = 1 / NonDestructive Reads CVF_WHEL= 6 / Name: Open Pos: 31916 FIL_WHEL= 4 / Name: L 3.50 Pos: 1780 CVFWLEN = 3.8000 / CVF Wavelength FLTZP = 20.5 / Filter Zero Point LEN = 1 / Name: 0.300 Pos: 2056 DIT = 0 / Name: Open Pos: 3750 PPLATE = 80.00 / P plate's Angel. Pos: 4000 CBMODE = 1 / 0=ARC_S,1=ARC_D,2=PRC,3=CDS FRM_RATE= 7.10 / In msec. Fastmode=Off SlowCnt=1 NDR=1 RESET_MS= 1000 / Idle Resets in mseconds LSTEMP1 = 30.00 / LakeShore Temp. Sensor 1 - Array SITEMP1 = -9.00 / Sci. Inst. Temp Sensor 1 - Spare SITEMP2 = -9.00 / Sci. Inst. Temp Sensor 2 - Coldbox TPD = ' 09:24:48.11 16:01:17.3 03:16:19.83 1.456 2000.0 -OK' RA = 09:24:48.11 / Right Ascension DEC = 16:01:17.3 / Declination HA = 03:16:19.83 / Hour Angle AIRMASS = 1.456 / Air Mass EPOCH = 2000.0 / Epoch EXT_COF = 0.150 / Extinction coefficient VDDUC = -3.700 / Programmable voltage VVDUC VDET = -3.100 / Programmable voltage VDET END :}8𽧴7,78񆰪9H8S7P77򯋲?8𤫎󼌘9)99"8:39M8𓄣#9K:::G:C999:;:99: :9;::M977x778|78:99X: 9939M9:j:T:t:@:/99;; :<{8򣥻8:񊖍"8799U;i:;<>=';;;U;:n996:9H:*:c9v:*:;9v:*;=88$7񴱖8H88񟣘H9C88򦟅󋑓9f:99v:;;78B898888i8e8򠓻^88989:z9:`;P;q<2;r:::;R:<;:::J:_;:<:;A; :;;A; ;:񱻀񮲬O8󿄯8b8*9%89)9-8]9)9;Z;=$:::;::9;:::h;P:;<5;J:;<=;;;;<:;:I9D9𢑵::񸍌:*:8򓻆:8:9:;;k;:;::8v8m9e98򠍫9\:[989X99:;X::;5:v:u9F:8:🅧9::)999 999;;::;:c:::;99t98:89:9G9/98f:::`999C9:%99:898z:R9:89:.9N9O::::::P999:99:;)9]9\9D89888p8:o9G9Y99V9: 99_8񲖿79z9򔏯9n9~999: ;;w:9b:c99::V:I;::V:I;9򲶼8(9`8 8(89:9c898::h99198X:d8򣐿V99X9=8C899=8C9c978*897v7z7񺺕o9:};:9#888M89L9&99f:t89#:;A:\:w99c9::9:):9'807/8򦭻F:;499F:':{77񾃚`8A8\99;(::9:88Q999 8B8789M:;I:9I8999:C9󶢃89T89k9n:9񒑙:99":X7]689:&9:o9i9?3/8󚠈969󠷧6799::𮤅9:򗄡x8󳡭[95899I:9g:\7|998^9Q99;h;d999:989_99s8X9񯕙񉮽8Y8D9`9:g9Z9z99:99n:9879V9y9;&:?9Q9B9𘹵99U:u99:<-9񴼜8􌈙x99:9 998;8"89x:?98588m9r999;9e9l8&9 89G9:::8󿗂󎐭;9;O;;9:;z98H8U8󚽫9:񐐼98: ::񢱀􅻾9J9&9K9:99-89:9:7::9Y99:9E9:s:;< <;;< ;;88i:88*8N8x9:::9x98p99r9a8:99+779:o:::S9c9:=999::6:r;>;.;;:;;{;::񾤎89"8:8d9; :𖅍>8:99:q;:288{89b9::);(:?:9:Y9G9:A; 9:;;98888򍯩W99:;?:;::::9򝝑9:E:6:k969a99G:K9;9:K9:9 88[8909.98<969|79P8񙑋9:K99:q;{:::;@:::@::599:s99򗂁:::;:;;:#:;9:9w9V:񣂿9N8򐮑8;9;:;r8:w9{:9:9;:u;)9:n: 99:::n9򩮑P:;$<;B;;;:.: 9b;:.;8;