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 = 1828 / MIN DATA VALUE IN FILE DATAMAX = 16477 / MAX DATA VALUE IN FILE DATAMEAN= 13954 / 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 = 'Callisto' COMMENT = '.' IRAFNAME= 'data0133.b' BEAM = 'B' / Object(A) or sky(B) TIME_OBS= '04:20:48.300049' / 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 = ' 09:24:49.70 16:01:10.5 03:21:10.52 1.489 2000.0 -OK' RA = 09:24:49.70 / Right Ascension DEC = 16:01:10.5 / Declination HA = 03:21:10.52 / Hour Angle AIRMASS = 1.489 / 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 6455;34m5N5^56I54b44򨃽75A4T3򛴡755󩈩,6656󁂷7T7t67K66}6787󲖖6e7󲖘84I4󃞱t45=5s54C3n3K4x4344Y5445r5#554=5V54􇭄T6~66K66p6r76񷍤󬝁6򮽅76򯣶44[5m5񛰠4󜜦J445\5 3􇒨5}5455\4?5$55z5𧡛󵙕|66s6򸓠6p6666877]78877]8v85C5a4𚚞4(5𗥏G34`5󁄑c55x54h4e4󢽼򌷌7_6 7\7𚽌􈁅*666m6n66}87T88087v8808Y8<574V454򃑤5$4U4Z5664􊣘򒧓񂥜66,666L65767=7#66c67|7s79588h8^7򢺧S8^7򢮦545 5h4󢐧455E45m5R4}5?4򏣂686$565|7T6򱰒ꛣ꒩277򟪾)9K8828!67g6977j7g698m7𿜔𩶉5;4񶵩4452544256j5􋈺h6H55󻴰766g77 681798q8G7v7a677-76k7w776k885 4t6U5v6)44B5545w4󻨙>5󖩍󬉼56򥨩􄶷6󍏠8 7񫟓r978J7񻁋7@6"66􈂨6U7668󗩥55y54񷃎4𶖓S5𑤏P5v66}57*66)646:6K87,8Z89u8B8877Z666567667x8q668&9544𰌢45:555M6k656g6)56[6"66󇐬p7򓦨򾶝=777򯉹@666T6a7677 7󵼗7[7󵼙'8404䵗F6)555q5D456{6H55d6`56򵇜7078 8i8 7𺗂7708􈜹 7񘱧872937q7z8 7𥀟z8 77R5J5򃨅54z45G46V66H5F65󊎎6񜈞97%7򲍍7K7b6?8U77w677878򍞯o8򸶎887i888=855A4򴫧5G565;666C6 5󬗣U8񴾀8p77r777666򉺰718A8'99V8 8;7x78񆟓-6l777-89+55n5𚵵5R5615*5646j8788\868 67A57f6z7m6!76S8)7<928>878|887c7􈔧68󚙙68c8L6'5%5/54u445-55󠖖9687U66[6-655񘨘6b7U7\8k7x8,78878򃰶󐜍5778V7?7O78V9g9򤾈S4Y4򃓒򨛤󹁣88R8&7^66`65N6-6I5,5O77=8-7a7x7<78!817􂂮𞓐7k6𪽯l7n67R7J7n68Y8;3󫯾v6&6R7I8}8>7Z7/7g7E77A66}6r5356 7&7򩈰&8,7󚥰8]7@7677{78e7I7x6􂖹f6󔂃7f6󓮢򀙠67'67g67+6)6I6K56>56L665򓂪󿄑!7񜑵K77:866G6>67V8n77;7j7778o7񜁹07/7񜁸76𿽲򉣀5k5665[56W666m77s7K6󦞡9 8d@]77I606"67 818;o877Z77v7p78J6;$8J675n555𛒑5 5򟋗򮩫􄫞78 7(676󯠳7176v55򾞃w8666#77o7񀘘k787+867968668(56<5U4W6Z5=46u6𶨦6'86+77s87`776S56n78,7_6K6j7(6񫙨𡤁<7򃱾7b7𡓦H566(6H5򐨼v5򘶃55E5v6 7>76>56\7𤯞6^6~56'77\768>7,6g6b6U6756g7\76k6򯆻U7*5򮮎p6`57(86`5󠕙<5c45n5𹿈656K6667I676 6(6'8U8Z88966?6:6D677A5򢔊6􇮱򱨼357767 87777 877755ḟ6t55󟲢픣򆤫66Y67b8687󦙿.67񆁈6B6󟷭7D6]556 6{6q8k77c7777c77:8@66$65y65}686}6(5򓅱 7666s566򊀄6Z6򜀮 5776𡒩6|6󲓗񱜫$6777'656񷚬577F556A59655n45L57 606 6o666򢠟5⋬6\6w6W56Z6A556]678 76!7E5e67.6󠇴/7𪪂򻝆󯒏񡣓55A7j6I7 5|6򛾃 5򨤝65n5o5L55񏘳645u5]5󠈈887b7Q65𛆙7)7󔒺b706n86b78c45^4󉵬66V5{56w6򥛙66򽴓5z55j6=5O5f55󵬑67j6{6𪪫86,56D76􎚒𭪢L7866L67󢝓6%5󸜽55g5=6@656 55666`5\565e6K7<77%65􋇪s557 6"8:87667Z77^7_76I7^7_67c545N5r6V5*45a655 55k5􄰝񅡶4򮤣'78;7J776N5򜏯-67q85N56177񲕣35#3󼊊5#3󻽎d3񂝰􄚯d55545b5u5e5:4U4򢇼5o68'6697񴛦;56w6N7C6p56757)7L7)56m66t6t6i66t6t67C34p4=49344򴮦~5񈨈54q6󣆛676񛫃6𠾾6򮰭5557𺖹g65z66G666a6g6񭶠a6g6񃠀334B4~4u5U4_5344s57g66Z6B5𼤰5$55c6S7 65򜄉N676𪙲5m65򨗴76665356l653563񭱕5z4x4Z4*46I67s77J56 5t556 5􋂪375p667666]686g766񽨌5P35􋒜D7j7񢆔D67#4񔽖5W45 6񃍱7O6u56𰗽d6 6G65J4󻋟e67󵺳b65񃄄B6*76m6q55^556\6Y66o26d66o5򓖔a34666l66O6X0𳩕5~565򀀩򤻽r67}7q6\6h6_7L6:556K5򟐗񱃪 7;67u4X6񏓽56񏔀7556&6𹸷󊙀I6/5p66w6[4Z45b5 6?6a7W66665786456񡯋x46466𽐂6*56156[56O776[57J8₥65񌚌 6X6756G55>56676-5755=6356(68k66q4򏳧\667C6q755w5񂷤d8t6􎚔!8t6􎡾655;5e6r6񱔅O55!667Q7b63565656P6w76 6N506񘶦򥮱B66>6e6􈉖36 7A78888V8878}55+6555555򻗉37G66k5.6?66&5򸀰r54𔣟7j66666~66U66b77?67𱊔t8G7񯂀-8G77Q6605򌯫5'6p77[66$56C6k6򙟋655 5o56 706𘚘7-6Q76 67!8167a8n7񱻩877e7K7H77e6𕖸46*6𔿨 66666%676V6&5󾯲i6966L56G56O5|66l66[77d77\7𘒤l7p7򄎏6$6l7T76$7e87s6𽃵~55b6q6󙿯6Z69656b5󍲂i6;565\565567󊰱769;77&7i777?77}6򫪺f8$6򫪺876j5U5󩄒y5񆙪z55555􁾪)6𛍈65*526-5𛏁񀐢7~888:7򄂍767;626򍉋 8"6𶽎8"68$7󩋻񤶚Z6555+5&57.7^6D66O565􄖵6R77A7􂈍87>76868+667i7177w7T6666a6677756653 4򥖶K7O6756505󓓱56F767"8K757򵐡l7g66\6𑺈>77Q7656+6q66T7򜗢6T7655%5M5򌳺5L56B4󦅁~554󻷛66h7>87^7(7I7򵆵7666,67`6 6a5󍢸􅇻L7񘺡86􂆩󁎱|6/6376h6]6>5񅸶W56H6󄫡􋑴7f6s7Q6f8i6󝝀Y66󲚚27z7,66K66$77978t88q6꟱c8q688T