SIMPLE = T / DATA IS IN FITS FORMAT BITPIX = 32 / 32 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 = 3615 / MIN DATA VALUE IN FILE DATAMAX = 59366 / MAX DATA VALUE IN FILE DATAMEAN= 51472 / MEAN DATA VALUE IN FILE ASEC_PIX= 0.30 / PLATE SCALE in arcseconds/pixel DIVISOR = 10 / Normalization value ORIGIN = 'Institute for Astronomy' TELESCOP= 'NASA IRTF' INSTRUME= 'NSFCAM, The Superhero Camera' OBSERVER= 'NSFCAM Galileo support program' OBJECT = 'Europa' COMMENT = '.' IRAFNAME= 'data0114.b' BEAM = 'B' / Object(A) or sky(B) TIME_OBS= '04:17:01.479620' / 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 = 10 / 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 = ' 09:24:48.16 16:02:17.1 03:17:25.36 1.464 2000.0 -OK' RA = 09:24:48.16 / Right Ascension DEC = 16:02:17.1 / Declination HA = 03:17:25.36 / Hour Angle AIRMASS = 1.464 / 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 IđĆzSƳË;YX5ĩƼŵu;ɏƀƗB0~ 7j+Ȁ1+!а /Ļ††zt((Èá Ȅ:lj̪%jɛȖs\Ȗ$ *O9=',c?Âß?½ìüĴɊͼǎkȒ8E'?' êŁ& y{SL)J~Q1 o'2l&ɫ'LMT;4^g΃̯g΃ϳW0K=-QŷiµKn™M_b9Q/1ɦʜj̐ҞJ˒ʔU39 ?’0ĮU«aH>C +AdzMЛʒSʷS_r^,|UŪ.Ȼƌ:ɁѢdβv ͤȓ/ȓ V³T-uęQR&{yƲſǩYkŪRӐѸϰ̎̉=ʮBBѭdƼʼn dõUď0JȻB#0V+/_ͺ1ͪȣz`m~;Ɂ͘Ѓ;Ɂ>{Ĭj¡;ûý;øP`ȖȭIƃ64̨Η8Ѕ<(F̽5 Ȑ/^ȧsΒxsҕ#R"(ÓľÉtX2:ƚƵM˄Η19N"M7<Wuf~вa\]VVE3+ȷȀ@FǀΘiӺ˾̋%n@gp`WЇm0eλΉя3λΉϤҙĵ™ƷĚd\~gUƅ;i>Ͳ*ZɗɎwsddхV̡ggʼ5gʼт!eam5P|nϵΥɹndMj5̬8έ7hV˯8ʎMM8ʎΤ^h ƛL4,jǏ8NŃE^f̊˟ʚűFͣuͣ Ԅ yX¹ƚGKi ~Dĩ;(˱ϳ%<5ΩɮaȼTGu-̢ˇ-Θ”@o_ϝ qʟ_s/v͏΂Ω ϚL˗uKϕ-^΀r\rjлr°Ǘʍʺ$ {ǓH4ǞyǾ+ʩyDb˼˅$H3˭pMBrrwi IJɢ!VsȐ#!|͋Ҥβ̭͋Dž.:&΋-3͍ڙ͜:ƠðɪGƴţ9kʋOcȫJ5aϱ7ϸʙʌϸʙ</"GǻAȕɚ)O#pBɃ͚Ѝ0Ȳɧ̑B̅Л*ȪǐKȪǐ_{&'ŀ_ŭ;ʡi͗MȎȿ3ʿ˞$ˁ[ȟ[ˈ̂Ͷ':AʗŔgȱ1ıɭmƆ8.` B3$ǘnj#$Ѷ(ǧ!ȂXƺ"hīeˬIΏaˬI&{tTCVnrǃ(ίͶ?*ƶ ̐ˉȡ&ƾRas͌Ds~iŏțǰ_̄`rOPY@ǾBdʥɵ5'ʭ̢2ɫ̾ ǵYǍWÕƖ9Ǎ~1ʔɥ2U(9ɲ?ȲϮ̇lŜɝzʪ')ʪ'ͤ&ůf¬E.˙ű6vx>cŨŅVĐn|Mc#qFк$8Ⱦк$ΤϐĊg¶U)HšșaʦȾʩ'Vǩ[Ŷ̦ʲ_~VR8ȃ΂ʅĮ)ƋĄ'MFŴĞDŽȈQE˾ZBv c%˴ȋϻUd̖̗s̗~_ǡĘcĸ7ŧ:œŸm1Ͱ~ \Ɨu=̥.ƼǪ<mHR͜rRlJ=öƇà7łķ(:ĸs0ʤȪm{ƊȀ˸9Vu5Ƿ3v3ʀ4q1;1ȸLHb,8\q0RƏRMm]=wQIżQɪ %șȎaeNˠ'bʅ$koqãrqãǛ0_3ŞƁV…J'ĉ4]]ɵr TƨYΎi(rȷīň,D˾͛,DʐŠ}êõȟd̋MǨ;ƅāǭbDX>&S!60XƷKɑǭȽȏȽtXȋI>ǬW5µD.J(ȯ?̭y~MrI̱ȸk)yM)3 ȵƋJy+œsɌ:·!?fuɨˠ6}GNj?ǧ·Qd +l +l )ɾKrdr!ɡ10Ǡ>6Ƶɚ+e cr?ɖ+â,ŵȝɂʨŷŋ nϣЊϣ*åĽ%1~t3tj<3ǎɌ(6~ʆ,<6$ȑ;ʟkqҋqŃįƉĉł̬6ɜȸ;hǶjéV`ʽLU$ȀA̋^˖M'\ϗјϛϗ%e8ČOl? 4Œɂjxb\{6̿ʖ ʋ˚ȕ˶ǶˎF̥;Ǒ,lɁ5Ȼ ƻ/8~vɤ4kNJdɎ D6c͠N(9 ЙɼƦǰN n'@ǮoAţ̯͜*\oHlͲ{ɷ,uΡɷ,#ze zƻ+l0cJʙ9ɮŪȟprϓΙi6˫Y_ǀʐs]_]Ιsǵɋmyð.Ŏ˩fɗVȞTūșC̝mͷ&̌>y{ˠ5T9)͂mǖɐǖ #Zũ:̫ʋn3n4:Ȁʎɩfi̞ ̱ʯ(J'˹ ˥Ⱦ{~c5DƒȂl5ǕVåU[Ƀ ˲ʔ̿˲?ɳmˌ o͵*M͵ɬ3:ɜ 3Ɣ!;FΡYʆ̉@5ʓ\eȗ́hQǴM΍Ӗ?8.gɎǨg=s