SIMPLE = T / conforms to FITS standard BITPIX = 8 / array data type NAXIS = 0 / number of array dimensions EXTEND = T DATE-OBS= '2017-08-31' / UT date of Observation (yyyy-mm-dd) OBJECT = 'KAPAND ' UT = '11:06:12.563' / HH:MM:SS.SS typical UTC at exposure UT-STR = '11:06:12.563' / HH:MM:SS.SS UTC at exposure start UT-END = '11:06:14.043' / HH:MM:SS.SS UTC at exposure end HST = '01:06:12.563' / HH:MM:SS.SS typical HST at exposure HST-STR = '01:06:12.563' / HH:MM:SS.SS HST at exposure start HST-END = '01:06:14.043' / HH:MM:SS.SS HST at exposure end MJD = 57996.46264540547 / Modified Julian Day at typical time MJD-STR = 57996.46264540547 / Modified Julian Day at exposure start MJD-END = 57996.4626625351 / Modified Julian Day at exposure end FRAMEID = 'CRSA00023827' / Image sequential number EXPTIME = 16.22808 / Total integration time of the frame (sec) DATA-TYP= 'OBJECT ' / Subaru-style exp. type IMAGETYP= 'OBJECT ' / non-Subaru-style exp. type OBSERVAT= 'NAOJ ' / Observatory TELESCOP= 'Subaru ' / Telescope/System which Inst. is attached INSTRUME= 'CHARIS ' / Instrument name TIMESYS = 'UTC ' / Time System used in the header PROP-ID = 'o17155 ' / Proposal ID OBSERVER= '"Groff, Lozi, Guyon, Skaf, Chilcote"' / Observer OBS-ALOC= 'Observation' / Observation or Standby OBS-MOD = 'SPEC ' / Observation Mode RADECSYS= 'FK5 ' / The equatorial coordinate system LONGPOLE= 180.0 / The North Pole of standard system (deg) RA = '23:40:24.563' / RA of telescope pointing (HH:MM:SS.SSS) DEC = '+44:19:59.88' / DEC of telescope pointing (+/-DD:MM:SS.SS) EQUINOX = 2000.0 / Standard FK5 (years) TELFOCUS= 'NS_IR ' / Focus where a beam is reachable FOC-VAL = -0.12 / Encoder value of the focus unit AIRMASS = 1.102068460574106 / Air Mass at start ZD = 24.87791906 / Zenith distance at typical time SEEING = '0.00 ' / FWHM of star size at telescope focus (arcsec) TRANSP = '1.000 ' / Sky transparency WEATHER = 'Fine ' / Weather condition (selected by observer) AZIMUTH = 7.547683529999972 / Azimuth of telescope pointing ALTITUDE= 65.12208094 / Altitude of telescope pointing FOC-POS = '##NODATA##' / Focus where instrument is attached AUTOGUID= 'OFF ' / Auto guide on/off M2-TIP = 'NS_IR ' / 2nd mirror tip-tilt on-off M2-TYPE = 'POSN ' / 2nd mirror type DOM-HUM = 10.7 / Dome humidity ( %) DOM-PRS = 622.9000000000001 / Dome pressure (hpa) DOM-TMP = 279.55 / Dome temperature (C) DOM-WND = 0.2 / Dome wind speed (m/sec) OUT-HUM = 10.1 / Outside humidity ( %) OUT-PRS = 622.9000000000001 / Outside pressure (hpa) OUT-TMP = 279.85 / Outside temperature (C) OUT-WND = 5.2 / Outside wind speed (m/sec) D_MODE = 'NGS ' / Guide star mode (NGS,LGS,LGSwoNGS,NGS-NGS) D_ENSHUT= 'OPEN ' / Entrance shutter position (OPEN,CLOSE) D_ESHUTP= 162.0 / Entrance shutter position (mm) D_CLD1 = 'OFF ' / CAL LD 655nm (ON,OFF) D_CLD2 = 'OFF ' / CAL LD 1550nm (ON,OFF) D_CLD3 = 'OFF ' / CAL LD 589nm (ON,OFF) D_CALX = 'OUT ' / CAL X stage position D_CALXP = 0.0 / CAL X stage position (mm) D_CALZ = 'OUT ' / CAL Z stage position D_CALZP = 100.0 / CAL Z stage position (mm) D_IMR = 'TRACK ' / IMR tracking status (TRACKING SLEWING STAND-BY) D_IMRMOD= 'ADI ' / IMR tracking mode (SID NON-SID ADI STOP OTHER) D_IMRANG= 97.04309000000001 / IMR angle (deg) D_IMRPAD= -29.067 / IMR position angle of dec. axis (deg) D_IMRPAP= -39.0 / IMR pupil position angle (deg) D_IMRRA = '23:40:24.510' / IMR tracking right ascension (J2000) D_IMRDEC= '+44:20:02.15' / IMR tracking declination (J2000) D_SADC = 'IN ' / SciPath ADC position (IN OUT) D_SADCP = 163.025 / SciPath ADC position (mm) D_SADCST= 'SYNC ' / SciPath ADC tracking status D_SADCMD= 'ADI ' / SciPath ADC tracking mode D_SADCA1= 154.66698 / SciPath ADC prism #1 position (deg) D_SADCA2= 232.66701 / SciPath ADC prism #2 position (deg) D_SADCFC= 1.0 / SciPath ADC prism angle correction factor D_SADCRA= '23:40:24.5' / SciPath ADC tracking right ascension (J2000) D_SADCDC= '+44:20:02' / SciPath ADC tracking declination (J2000) D_SADCPA= -39.0 / SciPath ADC tracking position angle (deg) D_TTX = 0.505 / TT mount tip voltage (V) D_TTY = 1.133 / TT mount tilt voltage (V) D_WTTC1 = 5.447 / HOWFS TT ch1 voltage (V) D_WTTC2 = 5.004 / HOWFS TT ch2 voltage (V) D_BS1 = 'SCEXAO ' / BS1 position (NIR1 NIR2 OPT) D_BS1P = 348.72 / BS1 position (mm) D_BS2 = 'MIRROR ' / BS2 position (BS589 MIRROR) D_BS2P = 152.63 / BS2 position (mm) D_FCONV = 'OUT ' / F-conversion optics position (IN OUT) D_FCONVP= -75.0 / F-conversion optics stage position (mm) D_AU1X = -1E-05 / AU1 offset X (mm) D_AU1Y = 0.0 / AU1 offset Y (mm) D_AU1XA = -1E-05 / AU1 offset X on sky (arcsec) D_AU1YA = 0.0 / AU1 offset Y on sky (arcsec) D_AU1FOC= 2.39999 / AU1 focus (mm) D_AU1TX = -1E-05 / AU1 tilt X (deg) D_AU1TY = -1E-05 / AU1 tilt Y (deg) D_AU1M1X= 7.04293 / AU1 M1 X actuator (mm) D_AU1M1Y= 12.80312 / AU1 M1 Y actuator (mm) D_AU1M1Z= -43.38209 / AU1 M1 Z stage (mm) D_AU1M2X= 7.07143 / AU1 M2 X actuator (mm) D_AU1M2Y= 13.26252 / AU1 M2 Y actuator (mm) D_AU1GSX= 487.0 / AU1 guide star X pos (pix) D_AU1GSY= 522.0 / AU1 guide star Y pos (pix) D_AU2X = 2E-05 / AU2 offset X (mm) D_AU2Y = 1E-05 / AU2 offset Y (mm) D_AU2XA = 3E-05 / AU2 offset X on sky (arcsec) D_AU2YA = 2E-05 / AU2 offset Y on sky (arcsec) D_AU2FOC= 1E-05 / AU2 focus (mm) D_AU2TX = -1E-05 / AU2 tilt X (deg) D_AU2TY = -1E-05 / AU2 tilt Y (deg) D_AU2M1X= 12.44123 / AU2 M1 X actuator (mm) D_AU2M1Y= 12.43436 / AU2 M1 Y actuator (mm) D_AU2M1Z= 0.46275 / AU2 M1 Z stage (mm) D_AU2M2X= 12.69134 / AU2 M2 X actuator (mm) D_AU2M2Y= 12.26989 / AU2 M2 Y actuator (mm) D_AU2GSX= 418.5 / AU2 guide star X pos (pix) D_AU2GSY= 610.8 / AU2 guide star Y pos (pix) D_HWNAP = '20ASEC ' / HOWFS NGS aperture name D_HWNAPP= 34.14001 / HOWFS NGS aperture position (mm) D_HWLAP = '4ASEC ' / HOWFS LGS aperture name D_HWLAPP= 17.90001 / HOWFS LGS aperture position (mm) D_HWAD = 'OUT ' / HOWFS ADC stage position (IN,OUT) D_HWADP = 0.0 / HOWFS ADC stage position (mm) D_HWADST= 'ASYNC ' / HOWFS ADC tracking status D_HWADMD= 'NORMAL ' / HOWFS ADC tracking mode D_HWADA1= 0.0 / HOWFS ADC prism #1 position (deg) D_HWADA2= 0.0 / HOWFS ADC prism #1 position (deg) D_HWADFC= 1.0 / HOWFS ADC prism angle correction factor D_HWADRA= '02:17:44.4' / HOWFS ADC tracking right ascension (J2000) D_HWADDC= '-05:13:33' / HOWFS ADC tracking declination (J2000) D_HWADPA= 65.0 / HOWFS ADC tracking position angle (deg) D_HWABS = 'TR9010 ' / HOWFS acq cam. BS position D_HWABSP= 2.78 / HOWFS acq cam. BS position (mm) D_HWAF1 = 'NONE ' / HOWFS acq cam. filter wheel#1 state D_HWAF1P= 0.0 / HOWFS acq cam. filter wheel#1 pos (deg) D_HWAF2 = 'ND1 ' / HOWFS acq cam. filter wheel#2 state D_HWAF2P= 72.0 / HOWFS acq cam. filter wheel#2 pos (deg) D_HWHBS = 'NONE ' / HOWFS hires cam. BS position D_HWHBSP= 30.29 / HOWFS hires cam. BS position (mm) D_VMAP = 'FULL ' / HOWFS VM aperture D_VMAPS = 4.6466 / HOWFS VM aperture size (arcsec) D_HWPBS = 'NONE ' / HOWFS pupil cam. BS position D_HWPBSP= 0.0 / HOWFS pupil cam. BS position (mm) D_HWLAZ = 'ABS/HBS ' / HOWFS LA focus stage position D_HWLAZP= 39.4 / HOWFS LA focus stage pos (mm) D_HWLAF = 'ND10 ' / HOWFS LA filter wheel position D_HWLAFP= 252.0 / HOWFS LA filter wheel pos (deg) D_HWLASH= 'OPEN ' / HOWFS LA shutter state (OPEN CLOSE) D_HWAPDA= 515.01 / HOWFS APD Average Counts (kcps/elem) D_LWAP1 = '4ASEC ' / LOWFS AP1 name D_LWAP1P= 17.93001 / LOWFS AP1 position (mm) D_LWAD = 'OUT ' / LOWFS ADC stage position (IN OUT) D_LWADP = 0.0 / LOWFS ADC stage position (mm) D_LWADST= 'ASYNC ' / LOWFS ADC tracking status D_LWADMD= 'NORMAL ' / LOWFS ADC tracking mode D_LWADA1= 0.0 / LOWFS ADC prism #1 position (deg) D_LWADA2= 0.0 / LOWFS ADC prism #1 position (deg) D_LWADFC= 1.0 / LOWFS ADC prism angle correction factor D_LWADRA= '17:45:40.2' / LOWFS ADC tracking right ascension (J2000) D_LWADDC= '-29:00:25' / LOWFS ADC tracking declination (J2000) D_LWADPA= 0.0 / LOWFS ADC tracking position angle (deg) D_LWABS = 'NONE ' / LOWFS acq cam. BS position D_LWABSP= 30.18 / LOWFS acq cam. BS position (mm) D_LWAF1 = 'NONE ' / LOWFS acq cam. filter wheel#1 state D_LWAF1P= 0.0 / LOWFS acq cam. filter wheel#1 pos (deg) D_LWAF2 = 'NONE ' / LOWFS acq cam. filter wheel#2 state D_LWAF2P= 0.0 / LOWFS acq cam. filter wheel#2 pos (deg) D_LWAP2 = 'FULL ' / LOWFS AP2 name D_LWAP2S= 5.0691 / LOWFS AP2 size (arcsec) D_LWPBS = 'NONE ' / LOWFS pupil cam. BS position D_LWPBSP= 30.61 / LOWFS pupil cam. BS position (mm) D_LWLAZ = 'NOBS ' / LOWFS LA focus stage position D_LWLAZP= 5.2 / LOWFS LA focus stage pos (mm) D_LWLAF = 'CLOSE ' / LOWFS LA filter wheel position D_LWLAFP= 0.0 / LOWFS LA filter wheel pos (deg) D_LWLASH= 'CLOSE ' / LOWFS LA shutter state (OPEN CLOSE) D_LWAPDA= 0.23 / LOWFS APD Average Counts (kcps/elem) D_VMDRV = 'ON ' / VM drive (ON OFF) D_VMVOLT= 2.0 / VM voltage (V) D_VMFREQ= 1000.0 / VM frequency (Hz) D_VMPHAS= 5.6 / VM phase (deg) D_LOOP = 'ON ' / RTS Loop state (ON OFF) D_DMGAIN= 10.0 / RTS DM gain D_TTGAIN= 0.001 / RTS TT offload gain D_PSUBG = 0.01 / RTS piston subtract gain D_DMCMTX= 'ao188cmtx.oct' / RTS DM control matrix D_TTCMTX= 'ao188ttctrl.oct' / RTS TT control matrix D_WTTG = 0.0 / RTS HOWFS-TT gain D_LTTG = 0.0 / RTS low order TT gain D_LDFG = 0.0 / RTS low order defocus gain D_HTTG = 1.0 / RTS high order TT gain D_HDFG = 1.0 / RTS high order defocus gain D_ADFG = 0.0 / RTS AU1 defocus gain D_STTG = 0.0 / RTS secondary TT gain D_APDTI = -99.90000000000001 / APD coolant inlet temperature (degC) D_APDTO = -99.90000000000001 / APD coolant outlet temperature (degC) D_BNCTI = 13.8 / Temperature of AO bench inside (degC) D_BNCTO = 10.0 / Temperature of AO bench outside (degC) D_BNCHI = 12.0 / Humidity of AO bench inside (%) D_BNCHO = 11.0 / Hhumidity of AO bench outside (%) D_LSTATE= 'UNKNOWN ' / Laser: Generation status (EMIT/SHUTTERED/OFF) D_L589P = -99.98999999999999 / Laser: Output power of SFG589 (W) D_LPCUST= 'UNKNOWN ' / Laser: Status of power control unit D_LRCUST= 'UNKNOWN ' / Laser: Status of remote control unit D_LDSC = -9.999000000000001 / Diag: Brightness of Sodium gas cell D_LDSCPG= -9.999000000000001 / Diag: Gain of PMT for Sodium gas cell D_LDSCT = -99.90000000000001 / Diag: Temperature of Sodium gas cell D_LFID = -99999 / Fiber: ID of Laser Fiber D_LFRP = -9.99 / Fiber: Power returned from LLT through fiber D_LFRPR = -99 / Fiber: Gain range of returned power D_LFTHP = -9.99 / Fiber: Overall throughput of relay fiber (%) D_LRSTAT= 'UNKNOWN ' / LaserRoom: Overall status D_LTLNCH= 'UNKNOWN ' / LLT: Laser launching status (ON/OFF) D_LTCLXP= 22132.0 / LLT: Collimator lens X-stage pos. (micron) D_LTCLYP= 14906.0 / LLT: Collimator lens Y-stage pos. (micron) D_LTCLZP= 11014.0 / LLT: Collimator lens Z-stage pos. (micron) D_LTM3XP= 6000.0 / LLT: M3X Stage position of (micron) D_LTM3ZP= 1000.0 / LLT: M3Z Stage position of (micron) D_LTLPWR= -99.98999999999999 / LLT: Laser power at LLT (Watt) D_LTTOPT= -99.98999999999999 / LLT: Temperature at OPT side (degC) D_LTTIR = -99.98999999999999 / LLT: Temperature at IR side (degC) D_LTTFRT= -99.98999999999999 / LLT: Temperature at FRONT side (degC) D_LTTRER= -99.98999999999999 / LLT: Temperature at REAR side (degC) D_LTSHUT= 'CLOSE ' / LLT: Shutter status (OPEN/CLOSE) D_LTCPOL= 'UNKNOWN ' / LTCS: Policy (FirstON/Classical) D_LTCSHS= 'UNKNOWN ' / LTCS: Status of shuttering (OPEN/CLOSE) D_LTCLST= 'UNKNOWN ' / LTCS: Status of laser propagation (ONSKY/ON/OFF D_LTCTCS= 'UNKNOWN ' / LTCS: Status of collision with telescopes D_LTCSTS= 'UNKNOWN ' / LTCS: Status of collision with satellite D_LTCTTW= -999999 / LTCS: Time until telescope collision (sec) D_LTCSTW= -999999 / LTCS: Time until satellite collision (sec) X_SRCFIB= 'OUT ' / internal source fiber vertical stage (HOME, IN, X_SRCFIP= 0.0 / internal source fiber vertical stage position ( X_SRCSEL= 'SuperK broadbnd' / internal source type X_SRCSEP= 43.0 / internal source selection position (deg) X_SRCFIR= 'OD 3.0 ' / internal source ir nd X_SRCFOP= 'OD 3.0 ' / internal source opt nd X_SRCFFT= '900 +/- 40 nm ' / internal source filter X_OAP1 = 'AO188 ' / First OAP state (HOME, INT, AO) X_OAP1TH= 17.54999923706055 / First OAP x position (deg) X_OAP1PH= 46.06999969482422 / First OAP y position (deg) X_OAP1F = 185000 / First OAP f position (step) X_DICHRO= 'IN ' / Dichroic state (HOME, IN, OUT) X_DICHRP= 0.0 / Dichroic position (mm) X_PUPIL = 'Open ' / Pupil wheel state X_PUPWHL= 0.0 / Pupil wheel angle (deg) X_PUPX = 69800 / Pupil wheel x position (step) X_PUPY = 44200 / Pupil wheel y position (step) X_PIAA1 = 'Open ' / PIAA1 wheel state X_PI1WHL= 270.0 / PIAA1 wheel position (deg) X_PI1X = 72000 / PIAA1 wheel x position (step) X_PI1Y = 43000 / PIAA1 wheel y position (step) X_PIAA2 = 'Open ' / PIAA2 wheel state X_PI2WHL= 270.0 / PIAA2 wheel position (deg) X_PI2X = 51200 / PIAA2 wheel x position (step) X_PI2Y = 18500 / PIAA2 wheel y position (step) X_PI2F = 100000 / PIAA2 wheel foucs position (step) X_NULPKO= 'OUT ' / NULLER pickoff state (HOME, IN, OUT) X_NULPKP= 0.0 / NULLER pickoff position (mm) X_PG1PKO= 'OUT ' / Point Grey 1 Pickoff state (IN, OUT) X_FPM = 'Occulter 217mas' / FPM wheel state X_FPMWHL= 178.0 / FPM wheel position (deg) X_FPMX = 59460 / FPM wheel x position (step) X_FPMY = 219250 / FPM wheel y position (step) X_FPMF = 50000 / FPM wheel f position (step) X_LYOT = 'Vect vortex stp' / LYOT wheel state X_LYOWHL= 46.0 / LYOT wheel position (deg) X_LYOX = 127600 / LYOT wheel x position (step) X_LYOY = 127730 / LYOT wheel y position (step) X_IPIAA = 'Open ' / Inverse PIAA state X_IPIX = 27.0 / Inverse PIAA x position (mm) X_IPIY = 0.0 / Inverse PIAA y position (mm) X_IPITHE= 102200 / Inverse PIAA theta position (step) X_IPIPHI= 80200 / Inverse PIAA phi position (step) X_INTSPH= 'OUT ' / Integration sphere stae (IN, OUT) X_CHAPKO= 'AR window ' / CHARIS pickoff wheel state X_CHAPKP= 90.52999877929688 / CHARIS pickoff wheel position (deg) X_MKIPKO= 'Gold mirror ' / MKIDS pickoff wheel state X_MKIPKP= 44.09999847412109 / MKIDS pickoff wheel position (deg) X_IRCFLT= 'H-band (deflt) ' / IRCAMs filter state X_IRCBLK= 'OUT ' / IRCAMs block state (IN, OUT) X_IRCFCS= 'chuck ' / IRCAMs focusing stage state X_IRCFCP= 50000 / IRCAMs focusing stage position (step) X_PCFPKO= 'OUT ' / PCFI pickoff state X_PCFPKP= 27.0 / PCFI pickoff position (mm) X_PCFLEN= 'Single Mode Inj' / PCFI lens state (HOME, MMI, SMI) X_PCFLEP= 24.0 / PCFI lens slection position (mm) X_PCFFIB= 'Single Mode Inj' / PCFI fiber state (HOME, MMI, SMI) X_PCFFIX= 0.0 / PCFI fiber x position (mm) X_PCFFIY= 13.22000026702881 / PCFI fiber y position (mm) X_PCFFIF= 14.5 / PCFI fiber f position (mm) X_SAPPKO= 'OUT ' / SAPHIRA pickoff state (HOME, IN, OUT) X_SAPPKP= 0.0 / SAPHIRA pickoff position (mm) X_CHKPUP= 'OUT ' / CHUCKCAM pupil lens state (IN, OUT) X_FINPKO= 'OUT ' / Fiber Injection pickoff state (HOME, IN, OUT) X_FINPKP= 9.0 / Fiber Injection pickoff position (mm) X_FINFIB= 'Single-Mode Fib' / Fiber Injection fiber state (SMI, MMI, PHL) X_FINFIX= 66230 / Fiber Injection x position (step) X_FINFIY= 170070 / Fiber Injection y position (step) X_FINFIF= 223310 / Fiber Injection f position (step) X_FINCAR= 10000000 / Fiber Injection Carriage position (step) X_PG2PKO= 'OUT ' / Point Grey 2 Pickoff state (IN, OUT) X_LOWBLK= 'OUT ' / LOWFS block state (IN, OUT) X_LOWFCS= 60000 / LOWFS focus position (step) X_POLAR = 'OUT ' / Polarizer state (HOME, IN, OUT) X_POLARP= -0.0 / Polarizer position (mm) X_PYWPKO= '800 nm SP ' / PYWFS pickoff state X_PYWPKP= 180.0 / PYWFS pickoff position (deg) X_PYWFLT= 'OPEN (default) ' / PYWFS filter state X_PYWCOL= 120000 / PYWFS colimation position (step) X_PYWFCS= 130432 / PYWFS focus position (step) X_PYWPPX= 82554 / PYWFS pupil lens x position (step) X_PYWPPY= 60259 / PYWFS pupil lens y position (step) X_FIRPKO= 'Open (default) ' / FIRST pickoff state X_FIRPKP= 0.0 / FIRST pickoff position (deg) X_FIRPH1= '' / FIRST photometry pickoff 1 state (HOME, IN, OUT) X_FIRP1P= 0.0 / FIRST photometry pickoff 1 position (mm) X_FIRPH2= '' / FIRST photometry pickoff 2 state (HOME, IN, OUT) X_FIRP2P= 0.0 / FIRST photometry pickoff 2 position (mm) X_RHEPKO= 'OUT ' / RHEA pickoff state (HOME, IN, OUT) X_RHEPKP= 0.0 / RHEA pickoff position (mm) X_PYWLP = 'CLOSED ' / PYWFS loop status (OPEN, CLOSED, RM, ...) X_PYWFRQ= 2000 / PYWFS loop frequency (Hz) X_PYWGN = 0.1000000014901161 / PYWFS main loop gain (0-1) X_PYWLK = 0.9399999976158142 / PYWFS leak term (0-1) X_PYWRAD= 125.0 / PYWFS modulation radius (mas) X_PYWPLP= 'CLOSED ' / PYWFS pupil alignment loop status (OPEN, CLOSED X_PYWCLP= 'OPEN ' / PYWFS flux centering loop status (OPEN, CLOSED) X_PYWDMO= 'OPEN ' / PYWFS DM Offload status (ON, OFF with channel) X_LOWLP = 'OPEN ' / LOWFS loop status (OPEN, CLOSED, DM, ...) X_LOWFRQ= 0 / LOWFS loop frequency (Hz) X_LOWNMO= 0 / LOWFS number of modes X_LOWMOT= '' / LOWFS mode types (ZERNIKE, FOURIER, ...) X_LOWGN = 0.01600000075995922 / LOWFS main gain (0-1) X_LOWLK = 0.9599999785423279 / LOWFS leak term (0-1) X_SPCLP = '' / SPECKLE NULLING loop status (OPEN, CLOSED) X_SPCFRQ= 0 / SPECKLE NULLING loop freqency (Hz) X_SPCGN = 0.0 / SPECKLE NULLING loop gain (0-1) X_ZAPLP = '' / ZAP loop status (OPEN, CLOSED, RM, ...) X_ZAPFRQ= 0 / ZAP loop frequency (Hz) X_ZAPGN = 0.0 / ZAP loop gain (0-1) X_ZAPNMO= 0 / ZAP number of modes X_ZAPMOT= '' / ZAP mode types (ZERNIKE, LWE, COMBO, ...) X_HOTSPT= 'OFF ' / HOTSPOT alignment status X_GRDST = 'XYdiag ' / ASTROGRID status (ON, OFF) X_GRDSEP= 15.90999984741211 / ASTROGRID separation (lambda/D) X_GRDAMP= 0.02500000037252903 / ASTROGRID amplitude (um) X_GRDMOD= 2000 / ASTROGRID modulation frequency (Hz) Y_GRISM = 'lo ' / deprecated: grism position Y_PRISM = 'lo ' / prism position Y_FLTNAM= 'Broadband' / current filter name Y_FLTSLT= 4 / current filter slot Y_SHUTTR= 'open ' / shutter position Y_LSRENB= F / is laserState enabled Y_LSRPWR= 0 / laser power, percent Y_LSRALM= 0 / laser alarms Y_TEMP00= 42.31 / temperature sensor 0 Y_TEMP01= 51.499 / temperature sensor 1 Y_TEMP02= 49.629 / temperature sensor 2 Y_TEMP03= 51.01 / temperature sensor 3 Y_TEMP04= 51.453 / temperature sensor 4 Y_TEMP05= 52.535 / temperature sensor 5 Y_TEMP06= 51.639 / temperature sensor 6 Y_TEMP07= 70.749 / temperature sensor 7 Y_TEMP08= 51.759 / temperature sensor 8 Y_TEMP09= 51.829 / temperature sensor 9 FILTER01= 'Broadband' / current filter name DISPERSR= 'lo ' / prism position CHECKSUM= 'bmgeeleebleeblee' / HDU checksum updated 2017-08-31T11:06:12 COMMENT ------------------------------------------------------------------------ COMMENT ---------------- Parameters for AO188/LGS -- --------------------------- COMMENT ------------------------------------------------------------------------ END