SIMPLE = T / Standard FITS BITPIX = 8 / # of bits per pix value NAXIS = 0 / # of axes in data array EXTEND = T / FITS Extension may be present ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:56:10.7713' / Date the file was written TELESCOP= 'ESO-VLTI-A1234' / ESO INSTRUME= 'MATISSE' / Instrument used. OBJECT = 'sig CMa' / Original target. RA = 105.428491 / [deg] 07:01:42.8 RA (J2000) pointing DEC = -27.93480 / [deg] -27:56:05.2 DEC (J2000) pointing EQUINOX = 2000.0 / Standard FK5 RADECSYS= 'FK5' / Coordinate system EXPTIME = 0.0751997 / Integration time MJD-OBS = 60614.20568022 / 2024-10-31T04:56:10.7713 DATE-OBS= '2024-10-31T04:56:10.7713' / Observing date UTC = 17768.000 / [s] 04:56:07.000 UTC LST = 10468.786 / [s] 02:54:28.786 LST PI-COI = 'UNKNOWN' / PI-COI name. OBSERVER= 'UNKNOWN' / Name of observer. HIERARCH ESO COU AO SYSTEM = 'NAOMI' / AO System name [list_item]. HIERARCH ESO COU GUID DEC = -27.93473 / -27:56:05.0 DEC in J2000 HIERARCH ESO COU GUID MAG = 2.80000 / Given Coude guide star magnitude HIERARCH ESO COU GUID MODE = 'NONE' / VLTI mode of Coude guiding HIERARCH ESO COU GUID RA = 105.429739 / 07:01:43.1 RA in J2000 HIERARCH ESO COU GUID STATUS = 'ON' / VLTI guiding substate HIERARCH ESO COU GUID WAVELEN = 650.00000 / Effective wavelength HIERARCH ESO DEL DLT1 OPL END = 11.849997573 / Position at end for DL beam 1 HIERARCH ESO DEL DLT1 OPL START = 11.809756230 / Position at start for DL beam i HIERARCH ESO DEL DLT1 VCM CURV = 0.000473778 / mm-1 actual curv. of VCM beam i HIERARCH ESO DEL DLT1 VCM TRACK = 'ON' / VCM tracking beam i HIERARCH ESO DEL DLT2 OPL END = 13.162526355 / Position at end for DL beam 1 HIERARCH ESO DEL DLT2 OPL START = 13.178790642 / Position at start for DL beam i HIERARCH ESO DEL DLT2 VCM CURV = 0.001084713 / mm-1 actual curv. of VCM beam i HIERARCH ESO DEL DLT2 VCM TRACK = 'ON' / VCM tracking beam i HIERARCH ESO DEL DLT3 OPL END = 65.298889250 / Position at end for DL beam 1 HIERARCH ESO DEL DLT3 OPL START = 65.298908730 / Position at start for DL beam i HIERARCH ESO DEL DLT3 VCM CURV = 0.002514615 / mm-1 actual curv. of VCM beam i HIERARCH ESO DEL DLT3 VCM TRACK = 'ON' / VCM tracking beam i HIERARCH ESO DEL DLT4 OPL END = 30.929808151 / Position at end for DL beam 1 HIERARCH ESO DEL DLT4 OPL START = 30.940633228 / Position at start for DL beam i HIERARCH ESO DEL DLT4 VCM CURV = 0.001881764 / mm-1 actual curv. of VCM beam i HIERARCH ESO DEL DLT4 VCM TRACK = 'ON' / VCM tracking beam i HIERARCH ESO DEL FT SENSOR = 'MATISSE' / Fringe Tracker Sensor Name HIERARCH ESO DEL FT STATUS = 'ON' / Fringe Tracker Status HIERARCH ESO DEL REF NAME = 'DL1' / Reference DEL Name HIERARCH ESO DEL REF OPL = 0.000000000 / position HIERARCH ESO DET ACQ1 APPREV = 0 / Pre-processor application revision HIERARCH ESO DET ACQ1 CONT = F / Acq.-process continuous mode HIERARCH ESO DET ACQ1 DISKMEM = F / Disk-memory enabled HIERARCH ESO DET ACQ1 PROC = 'mtacqH2RG2 -setup 2 -ref 0' / Process name HIERARCH ESO DET ACQ1 QDUMP = F / Queue Dump Mode HIERARCH ESO DET ACQ1 QUEUE = 0 / Frame queue size HIERARCH ESO DET ACQ1 REV = 1 / Pre-processor framework revision HIERARCH ESO DET ACQ1 SOFW MODE = 'NORMAL' / Software operational mode HIERARCH ESO DET ACQ1 WIN NX = 1257 / Acq.-window NX HIERARCH ESO DET ACQ1 WIN NY = 80 / Acq.-window NY HIERARCH ESO DET ACQ1 WIN STRX = 32 / Acq.-window start-x HIERARCH ESO DET ACQ1 WIN STRY = 5 / Acq.-window start-y HIERARCH ESO DET ADC1 CLAMP = F / Clamp-and-Sample HIERARCH ESO DET ADC1 DELAY = 0 / Conv.-strobe delay (ticks) HIERARCH ESO DET ADC1 FILTER = 0 / Filter (0 = 0.5us, 1 = 5us) HIERARCH ESO DET ADC1 OFFSET = 2.500 / [V] ADC offset value HIERARCH ESO DET ADC1 PPENA = F / Pre-processor enabled HIERARCH ESO DET ADC1 PPFOWLER = F / Fowler mode HIERARCH ESO DET ADC1 PPINVERT = F / Invert Fowler-Pairs HIERARCH ESO DET ADC1 PPNINT = 1 / Integration frame counter HIERARCH ESO DET ADC1 PPNSAMP = 1 / Sub-pixel samples HIERARCH ESO DET ADC1 PPNX = 0 / Pre-processor x-dimension HIERARCH ESO DET ADC1 PPNY = 0 / Pre-processor y-dimension HIERARCH ESO DET ADC1 TEMP = 35.44 / [C] Board temperature HIERARCH ESO DET ADC2 CLAMP = F / Clamp-and-Sample HIERARCH ESO DET ADC2 DELAY = 0 / Conv.-strobe delay (ticks) HIERARCH ESO DET ADC2 FILTER = 0 / Filter (0 = 0.5us, 1 = 5us) HIERARCH ESO DET ADC2 OFFSET = 2.500 / [V] ADC offset value HIERARCH ESO DET ADC2 PPENA = F / Pre-processor enabled HIERARCH ESO DET ADC2 PPFOWLER = F / Fowler mode HIERARCH ESO DET ADC2 PPINVERT = F / Invert Fowler-Pairs HIERARCH ESO DET ADC2 PPNINT = 1 / Integration frame counter HIERARCH ESO DET ADC2 PPNSAMP = 1 / Sub-pixel samples HIERARCH ESO DET ADC2 PPNX = 0 / Pre-processor x-dimension HIERARCH ESO DET ADC2 PPNY = 0 / Pre-processor y-dimension HIERARCH ESO DET ADC2 TEMP = 0.00 / [C] Board temperature HIERARCH ESO DET APOTYPE VAL = 0 / Apodization type HIERARCH ESO DET APOX VAL = 512 / [pix] Size x of apodization before FFT HIERARCH ESO DET APOY VAL = 512 / [pix] Size y of apodization before FFT HIERARCH ESO DET BCD STATE = 0 / Current BCD position HIERARCH ESO DET BEAM VAL = 1 / Current optical beam processed [1 to 4] HIERARCH ESO DET CHIP DATE = '2014-06-03' / Date of installation HIERARCH ESO DET CHIP GAIN = 1.00 / Gain in e-/ADU HIERARCH ESO DET CHIP ID = 'ESO-Hawaii2RG-5um' / Detector chip identificatio HIERARCH ESO DET CHIP INDEX = 1 / Chip index HIERARCH ESO DET CHIP LIVE = 1 / Detector alive HIERARCH ESO DET CHIP NAME = 'HAWAII-2RG' / Detector chip name HIERARCH ESO DET CHIP NX = 2048 / number of pixels along x HIERARCH ESO DET CHIP NY = 2048 / number of pixels along y HIERARCH ESO DET CHIP PSZX = 1. / Size of pixel in X (mu) HIERARCH ESO DET CHIP PSZY = 1. / Size of pixel in Y (mu) HIERARCH ESO DET CHIP PXSPACE = 1.800E-05 / Pixel-Pixel Spacing HIERARCH ESO DET CHIP RGAP = 0. / Angle of gap between chips HIERARCH ESO DET CHIP RON = 0.00 / Read-out noise in e- HIERARCH ESO DET CHIP TYPE = 'IR-LM' / The Type of detector chip HIERARCH ESO DET CHIP X = 1 / X location in array HIERARCH ESO DET CHIP XGAP = 0. / Gap after chip along x HIERARCH ESO DET CHIP Y = 1 / Y location in array HIERARCH ESO DET CHIP YGAP = 0. / Gap after chip along y HIERARCH ESO DET CHOP CYCSUM = T / Half-Cycle Averaging HIERARCH ESO DET CHOP CYCSYNC = F / Sync to cycle HIERARCH ESO DET CHOP FREQ = 0.000000 / [Hz] Chopping frequency HIERARCH ESO DET CHOP ST = F / Chopping enabled HIERARCH ESO DET CHOP TIM = 0.0750000 / [s] TIM period HIERARCH ESO DET CHOP TRANSTIM = 0.025 / [s] Chopper transition time HIERARCH ESO DET CLDC1 CLKHI1 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI10 = 1.624 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI11 = 4.400 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI12 = 1.500 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI13 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI14 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI15 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI16 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI17 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI18 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI2 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI3 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI4 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI5 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI6 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI7 = 3.300 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI8 = 2.400 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHI9 = 4.200 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKHINM1 = 'clk1Hi-FSYNCB' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM10 = 'clk10Hi-VnBias' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM11 = 'clk11Hi-VpBias' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM12 = 'clock12Hi-RefSample' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM13 = 'clock13Hi-SampleClk' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM14 = 'clock14Hi-CSB' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM15 = 'clock15Hi-DATACLK' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM16 = 'clock16Hi_DataIn' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM17 = '--------------------------' / Name of clock h HIERARCH ESO DET CLDC1 CLKHINM18 = '--------------------------' / Name of clock h HIERARCH ESO DET CLDC1 CLKHINM2 = 'clk2Hi-VCLK' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM3 = 'clk3Hi-LSYNCB' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM4 = 'clk4Hi-HCLK' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM5 = 'clk5Hi-READEN' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM6 = 'clk6Hi-RESETEN' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM7 = 'clk7Hi-MAINRESETB' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM8 = 'clk8Hi-VnCasc' / Name of clock high HIERARCH ESO DET CLDC1 CLKHINM9 = 'clk9Hi-VpCasc' / Name of clock high HIERARCH ESO DET CLDC1 CLKHIT1 = 3.419 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT10 = 1.725 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT11 = 4.438 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT12 = 1.584 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT13 = 3.386 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT14 = 3.423 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT15 = 3.382 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT16 = 3.375 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT17 = 3.396 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT18 = 3.381 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT2 = 3.432 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT3 = 3.414 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT4 = 3.387 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT5 = 3.444 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT6 = 3.402 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT7 = 3.360 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT8 = 2.486 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKHIT9 = 4.284 / [V] Telemetry value clock-hi HIERARCH ESO DET CLDC1 CLKLO1 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO10 = 1.650 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO11 = 4.500 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO12 = 1.500 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO13 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO14 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO15 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO16 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO17 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO18 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO2 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO3 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO4 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO5 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO6 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO7 = 0.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO8 = 2.400 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLO9 = 4.000 / [V] Clock voltage setup value HIERARCH ESO DET CLDC1 CLKLONM1 = 'clk1Lo-FSYNCB' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM10 = 'clk10Lo-VnBias------------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM11 = 'clk11Lo-VpBias------------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM12 = 'clock12Lo-RefSample-------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM13 = 'clock13Lo-SampleClk-------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM14 = 'clock14Lo-CSB' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM15 = 'clock15Lo-DATACLK' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM16 = 'clock16Lo_DataIn' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM17 = '--------------------------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM18 = '--------------------------' / Name of clock l HIERARCH ESO DET CLDC1 CLKLONM2 = 'clk2Lo-VCLK' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM3 = 'clk3Lo-LSYNCB' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM4 = 'clk4Lo-HCLK' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM5 = 'clk5Lo-READEN' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM6 = 'clk6Lo-RESETEN' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM7 = 'clk7Lo-MAINRESETB' / Name of clock low HIERARCH ESO DET CLDC1 CLKLONM8 = 'clk8Lo-VnCasc-------------' / Name of clock lo HIERARCH ESO DET CLDC1 CLKLONM9 = 'clk9Lo-VpCasc-------------' / Name of clock lo HIERARCH ESO DET CLDC1 CLKLOT1 = 0.130 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT10 = 1.792 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT11 = 4.559 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT12 = 1.575 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT13 = 0.156 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT14 = 0.137 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT15 = 0.128 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT16 = 0.106 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT17 = 0.092 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT18 = 0.101 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT2 = 0.134 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT3 = 0.135 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT4 = 0.124 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT5 = 0.137 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT6 = 0.133 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT7 = 0.123 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT8 = 2.482 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKLOT9 = 4.101 / [V] Telemetry value clock-lo HIERARCH ESO DET CLDC1 CLKOFF = 1.000 / [V] Clock voltage offset HIERARCH ESO DET CLDC1 DC1 = 3.400 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC10 = 1.600 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC11 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC12 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC13 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC14 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC15 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC16 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC17 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC18 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC19 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC2 = 3.450 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC20 = 0.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC3 = 3.400 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC4 = 1.500 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC5 = 0.500 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC6 = 2.250 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC7 = 3.500 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC8 = 3.000 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DC9 = 0.790 / [V] Bias voltage setup value HIERARCH ESO DET CLDC1 DCNM1 = 'DC1-VDD' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM10 = 'DC10-RefColBuf' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM11 = 'DC11' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM12 = 'DC12' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM13 = 'DC13' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM14 = 'DC14' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM15 = 'DC15' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM16 = 'DC16_RelaySwitchLowActive' / Name of bias voltag HIERARCH ESO DET CLDC1 DCNM17 = 'DC-17' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM18 = 'DC-18' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM19 = 'DC-19' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM2 = 'DC2-VDDA' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM20 = 'DC-20' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM3 = 'DC3-VBIASPOWER' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM4 = 'DC4-DSUB' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM5 = 'DC5-VRESET' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM6 = 'DC6-BIASGATE' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM7 = 'DC7-PreampRef' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM8 = 'DC8-VSUB' / Name of bias voltage HIERARCH ESO DET CLDC1 DCNM9 = 'DC9-Vbiasoutbuf' / Name of bias voltage HIERARCH ESO DET CLDC1 DCOFF = 1.000 / [V] Bias voltage offset HIERARCH ESO DET CLDC1 DCT1 = 3.354 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT10 = 1.618 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT11 = 0.153 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT12 = 0.160 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT13 = 0.153 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT14 = 0.120 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT15 = 0.135 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT16 = 0.131 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT17 = 0.347 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT18 = 0.051 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT19 = 0.101 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT2 = 3.405 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT20 = 0.091 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT3 = 3.383 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT4 = 1.512 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT5 = 0.588 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT6 = 2.270 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT7 = 3.456 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT8 = 2.970 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DCT9 = 0.882 / [V] Telemetry value bias HIERARCH ESO DET CLDC1 DIODE = 0.000 / [V] Diode bias HIERARCH ESO DET CLDC1 FILE = 'mtngcirH2RG_TEC.v' / Voltage configuration file HIERARCH ESO DET CLDC1 PREAMP = 0.000 / [V] Preamplifier offset HIERARCH ESO DET CLDC1 STATUS = 'enabled' / Output status HIERARCH ESO DET DETCFG = 'mtngcirDetNGCIR1.dcf' / Detector configuration HIERARCH ESO DET DEV1 BOARD1 BCKPL = '000010806506' / Serial no (backplane) HIERARCH ESO DET DEV1 BOARD1 REV = '2.5.0' / Revision HIERARCH ESO DET DEV1 BOARD1 SERNO = '00001458754C' / Serial no (board) HIERARCH ESO DET DEV1 BOARD1 TRANS = '000013A6C29E' / Serial no (trans.-board) HIERARCH ESO DET DEV1 BOARD1 TYPE = 'AQ32-10MHZ' / Type HIERARCH ESO DET DEV1 BOARD1 VERSION = 9 / Version HIERARCH ESO DET DEV1 BOARD2 BCKPL = '000010806506' / Serial no (backplane) HIERARCH ESO DET DEV1 BOARD2 REV = '5.11.0' / Revision HIERARCH ESO DET DEV1 BOARD2 SERNO = '000013A6EBD6' / Serial no (board) HIERARCH ESO DET DEV1 BOARD2 TRANS = '0000163DD6E4' / Serial no (trans.-board) HIERARCH ESO DET DEV1 BOARD2 TYPE = 'FEB' / Type HIERARCH ESO DET DEV1 BOARD2 VERSION = 5 / Version HIERARCH ESO DET DEV1 REV = '0.7.1' / Revision HIERARCH ESO DET DEV1 SERNO = '000000000000' / Serial no HIERARCH ESO DET DEV1 SOFW BASE = 'Revision 317101' / Base software version HIERARCH ESO DET DEV1 SOFW MODE = 'NORMAL' / Software operational mode HIERARCH ESO DET DID = 'ESO-VLT-DIC.NGCDCS-323264' / Used dictionaries HIERARCH ESO DET DITDELAY = 0.0000000 / [s] Delay before integration HIERARCH ESO DET EXP POSTPROC = T / Post-processor enabled HIERARCH ESO DET EXP REV = 1 / Exposure-handling revision HIERARCH ESO DET FILESIM VAL = ' ' / File simulation path & name HIERARCH ESO DET FRAM FORMAT = 'generic-1' / FITS file format HIERARCH ESO DET ID = 'MATISSE-H2RG' / Detector system Id HIERARCH ESO DET INITNGC VAL = 1 / Setup order for mtnrts HIERARCH ESO DET INTERFX VAL = 512 / [pix] Size x of the interpolated image befo HIERARCH ESO DET INTERFY VAL = 512 / [pix] Size y of the interpolated image befo HIERARCH ESO DET MODE VAL = 0 / Mode used by the mtntrs processing algorith HIERARCH ESO DET NAME = 'MATISSE-LM' / Name of detector system HIERARCH ESO DET NDIT = 385 / Number of Sub-Integrations HIERARCH ESO DET NDITSKIP = 0 / DITs skipped at 1st.INT HIERARCH ESO DET READ CURID = 1 / Used readout mode id HIERARCH ESO DET READ CURNAME = 'SCI-SLOW-SPEED' / Used readout mode name HIERARCH ESO DET SEQ BREAK = F / Break enabled HIERARCH ESO DET SEQ1 CONT = T / Continuous mode active HIERARCH ESO DET SEQ1 CVTEXT = T / External convert active HIERARCH ESO DET SEQ1 DIT = 0.0751997 / [s] Integration time HIERARCH ESO DET SEQ1 EXPTIME = 60.0600000 / [s] Exposure Sequence Time HIERARCH ESO DET SEQ1 INITTIME = 0.0000000 / [s] Exposure Init Time HIERARCH ESO DET SEQ1 MINDIT = 0.0751997 / [s] Minimum DIT HIERARCH ESO DET SEQ1 PERIOD = 0.1560000 / [s] Trigger period HIERARCH ESO DET SEQ1 REALDIT = 0.0751997 / [s] Actual integration time HIERARCH ESO DET SEQ1 RUNCTRL = T / Run-control active HIERARCH ESO DET SEQ1 SLX ENA = F / SELEX interface enabled HIERARCH ESO DET SEQ1 SYNCEXT = T / External SYNC-pulse HIERARCH ESO DET SEQ1 TIMEADD = 0 / Dwell-time add value HIERARCH ESO DET SEQ1 TIMEFAC = 10 / Dwell-time factor HIERARCH ESO DET SEQ1 TRIGGER = T / Trigger mode active HIERARCH ESO DET SEQ1 TRIGMODE = 0 / Trigger mode (0=direct,1=shutter) HIERARCH ESO DET SEQ1 WIN NX = 1257 / Read-out window NX HIERARCH ESO DET SEQ1 WIN NY = 80 / Read-out window NY HIERARCH ESO DET SEQ1 WIN ROT = 0 / [deg] Read-out window rotation HIERARCH ESO DET SEQ1 WIN STRX = 32 / Read-out window start-x HIERARCH ESO DET SEQ1 WIN STRY = 5 / Read-out window start-y HIERARCH ESO DET SIMUL VAL = 4 / Simulation mode HIERARCH ESO DET SOFW BASE = 'Revision 323805' / Base software version HIERARCH ESO DET SOFW MODE = 'NORMAL' / Software operational mode HIERARCH ESO DET START VAL = 1 / Flag start sequence HIERARCH ESO DET STEP VAL = 2 / Current STEP Template HIERARCH ESO DET SYSCFG = 'mtngcirSysNGCIR1.cfg' / System configuration HIERARCH ESO DET TDELAY = 0.003 / [s] Delay between trigger and first read HIERARCH ESO DET TPLID VAL = 'MATISSE_FRINGES' / Current template identificati HIERARCH ESO DET TRACK GAIN = 0.5000 / Gain for coherencing HIERARCH ESO DET TRACK MASTER = 'L' / Master band for coherencing (L or N HIERARCH ESO DET TRACK MEAN1 = 1.0000 / Mean tracking ratio on IP1 DL on exposur HIERARCH ESO DET TRACK MEAN2 = 1.0000 / Mean tracking ratio on IP3 DL on exposur HIERARCH ESO DET TRACK MEAN3 = 1.0000 / Mean tracking ratio on IP5 DL on exposur HIERARCH ESO DET TRACK MEAN4 = 1.0000 / Mean tracking ratio on IP7 DL on exposur HIERARCH ESO DET TRACK MODE = 2 / Tracking mode HIERARCH ESO DET TRACK THRMIN = 2.0000 / [um] Minimum OPD correction threshold HIERARCH ESO DET WIN MTCS1 = 32 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS2 = 192 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS3 = 476 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS4 = 750 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS5 = 1422 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS6 = 1658 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCS7 = 2000 / [pix] Left side of a sub-window column HIERARCH ESO DET WIN MTCW1 = 16 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW2 = 150 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW3 = 150 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW4 = 625 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW5 = 150 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW6 = 150 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTCW7 = 16 / [pix] Width of a sub-window column HIERARCH ESO DET WIN MTRH1 = 8 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH2 = 64 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH3 = 8 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH4 = 0 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH5 = 0 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH6 = 0 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH7 = 0 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRH8 = 0 / [pix] Height of a sub-window row HIERARCH ESO DET WIN MTRS1 = 5 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS2 = 169 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS3 = 2037 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS4 = 1 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS5 = 1 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS6 = 1 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS7 = 1 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN MTRS8 = 1 / [pix] Bottom side of a sub-window row HIERARCH ESO DET WIN NCOL = 7 / Number of sub-window olumns HIERARCH ESO DET WIN NROW = 3 / Number of sub-window rows HIERARCH ESO DET WLMAXCUT VAL = 0.0000 / [um] Maximun wavelength cut HIERARCH ESO DET WLMINCUT VAL = 0.0000 / [um] Minimun wavelength cut HIERARCH ESO DET1 TRACK ALGOTYPE = 145 / Bitwise value for quick-look algorithm HIERARCH ESO DET1 TRACK NCOH = 1 / Number of frames for coherent integration HIERARCH ESO DET1 TRACK NINCOH = 1 / Number of frames for incoherent integration HIERARCH ESO DET1 TRACK SNRLIMIT = 200.0000 / Fringe peak detection limit in SNR HIERARCH ESO DET2 TRACK ALGOTYPE = 145 / Bitwise value for quick-look algorithm HIERARCH ESO DET2 TRACK NCOH = 5 / Number of frames for coherent integration HIERARCH ESO DET2 TRACK NINCOH = 1 / Number of frames for incoherent integration HIERARCH ESO DET2 TRACK SNRLIMIT = 10.0000 / Fringe peak detection limit in SNR HIERARCH ESO DPR CATG = 'SCIENCE' / Observation category HIERARCH ESO DPR TECH = 'INTERFEROMETRY' / Observation technique HIERARCH ESO DPR TYPE = 'OBJECT' / Observation type HIERARCH ESO INS BCD1 ENC = 212 / [Enc] BCD device absolute position. HIERARCH ESO INS BCD1 ID = 'OUT' / BCD device unique ID. HIERARCH ESO INS BCD1 NAME = 'OUT' / BCD device name. HIERARCH ESO INS BCD1 NO = 1 / BCD device slot number. HIERARCH ESO INS BCD1 TYPE = 'NA' / BCD device element type. HIERARCH ESO INS BCD2 ENC = 201 / [Enc] BCD device absolute position. HIERARCH ESO INS BCD2 ID = 'OUT' / BCD device unique ID. HIERARCH ESO INS BCD2 NAME = 'OUT' / BCD device name. HIERARCH ESO INS BCD2 NO = 1 / BCD device slot number. HIERARCH ESO INS BCD2 TYPE = 'NA' / BCD device element type. HIERARCH ESO INS BCOP1 ENC = 24017 / [Enc] Absolute position of the BCD OPD adj. HIERARCH ESO INS BCOP1 POS = 24017 / [Enc] Position of the BCD OPD adj. device. HIERARCH ESO INS BCOP2 ENC = 24863 / [Enc] Absolute position of the BCD OPD adj. HIERARCH ESO INS BCOP2 POS = 24863 / [Enc] Position of the BCD OPD adj. device. HIERARCH ESO INS BCOP3 ENC = 29351 / [Enc] Absolute position of the BCD OPD adj. HIERARCH ESO INS BCOP3 POS = 29351 / [Enc] Position of the BCD OPD adj. device. HIERARCH ESO INS BCOP4 ENC = 36608 / [Enc] Absolute position of the BCD OPD adj. HIERARCH ESO INS BCOP4 POS = 36608 / [Enc] Position of the BCD OPD adj. device. HIERARCH ESO INS BCTP1 ENC = 29894 / [Enc] Absolute position of the BCD Tip. HIERARCH ESO INS BCTP1 POS = 29894 / [Enc] Position of the BCD Tip adj. device. HIERARCH ESO INS BCTP2 ENC = 29851 / [Enc] Absolute position of the BCD Tip. HIERARCH ESO INS BCTP2 POS = 29851 / [Enc] Position of the BCD Tip adj. device. HIERARCH ESO INS BCTP3 ENC = 40400 / [Enc] Absolute position of the BCD Tip. HIERARCH ESO INS BCTP3 POS = 40400 / [Enc] Position of the BCD Tip adj. device. HIERARCH ESO INS BCTP4 ENC = 32163 / [Enc] Absolute position of the BCD Tip. HIERARCH ESO INS BCTP4 POS = 32163 / [Enc] Position of the BCD Tip adj. device. HIERARCH ESO INS BCTT1 ENC = 32388 / [Enc] Absolute position of the BCD Tilt dev HIERARCH ESO INS BCTT1 POS = 32388 / [Enc] Position of the BCD Tilt adj. device. HIERARCH ESO INS BCTT2 ENC = 30402 / [Enc] Absolute position of the BCD Tilt dev HIERARCH ESO INS BCTT2 POS = 30402 / [Enc] Position of the BCD Tilt adj. device. HIERARCH ESO INS BCTT3 ENC = 23295 / [Enc] Absolute position of the BCD Tilt dev HIERARCH ESO INS BCTT3 POS = 23295 / [Enc] Position of the BCD Tilt adj. device. HIERARCH ESO INS BCTT4 ENC = 47524 / [Enc] Absolute position of the BCD Tilt dev HIERARCH ESO INS BCTT4 POS = 47524 / [Enc] Position of the BCD Tilt adj. device. HIERARCH ESO INS BSL1 ID = 'pshut1' / L&M BSL shutter ID. HIERARCH ESO INS BSL1 MODE = 'NORMAL' / Periodic/Fast Shutter to set if NORMAL HIERARCH ESO INS BSL1 NAME = 'fast shutter L1' / L&M BSL shutter name. HIERARCH ESO INS BSL1 ST = T / L&M BSL shutter open. HIERARCH ESO INS BSL2 ID = 'bsl2' / L&M BSL shutter ID. HIERARCH ESO INS BSL2 NAME = 'fast shutter L2' / L&M BSL shutter name. HIERARCH ESO INS BSL2 ST = T / L&M BSL shutter open. HIERARCH ESO INS BSL3 ID = 'bsl3' / L&M BSL shutter ID. HIERARCH ESO INS BSL3 NAME = 'fast shutter L3' / L&M BSL shutter name. HIERARCH ESO INS BSL3 ST = T / L&M BSL shutter open. HIERARCH ESO INS BSL4 ID = 'bsl4' / L&M BSL shutter ID. HIERARCH ESO INS BSL4 NAME = 'fast shutter L4' / L&M BSL shutter name. HIERARCH ESO INS BSL4 ST = T / L&M BSL shutter open. HIERARCH ESO INS BSN1 ID = 'bsn1' / N BSN shutter ID. HIERARCH ESO INS BSN1 MODE = 'NORMAL' / Periodic/Fast Shutter to set if NORMAL HIERARCH ESO INS BSN1 NAME = 'fast shutter N1' / N BSN shutter name. HIERARCH ESO INS BSN1 ST = T / N BSN shutter open. HIERARCH ESO INS BSN2 ID = 'bsn2' / N BSN shutter ID. HIERARCH ESO INS BSN2 NAME = 'Shut N beam 2' / N BSN shutter name. HIERARCH ESO INS BSN2 ST = T / N BSN shutter open. HIERARCH ESO INS BSN3 ID = 'bsn3' / N BSN shutter ID. HIERARCH ESO INS BSN3 NAME = 'Shut N beam 3' / N BSN shutter name. HIERARCH ESO INS BSN3 ST = T / N BSN shutter open. HIERARCH ESO INS BSN4 ID = 'bsn4' / N BSN shutter ID. HIERARCH ESO INS BSN4 NAME = 'Shut N beam 4' / N BSN shutter name. HIERARCH ESO INS BSN4 ST = T / N BSN shutter open. HIERARCH ESO INS CLLX1 ENC = 19531 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLX1 POS = 19531 / [Enc] Position of the L&M CUL lateral X adj HIERARCH ESO INS CLLX2 ENC = 22331 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLX2 POS = 22331 / [Enc] Position of the L&M CUL lateral X adj HIERARCH ESO INS CLLX3 ENC = 23975 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLX3 POS = 23975 / [Enc] Position of the L&M CUL lateral X adj HIERARCH ESO INS CLLX4 ENC = 14507 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLX4 POS = 14507 / [Enc] Position of the L&M CUL lateral X adj HIERARCH ESO INS CLLY1 ENC = 38957 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLY1 POS = 38957 / [Enc] Position of the L&M CUL lateral Y adj HIERARCH ESO INS CLLY2 ENC = 32799 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLY2 POS = 32799 / [Enc] Position of the L&M CUL lateral Y adj HIERARCH ESO INS CLLY3 ENC = 10861 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLY3 POS = 10861 / [Enc] Position of the L&M CUL lateral Y adj HIERARCH ESO INS CLLY4 ENC = 17422 / [Enc] Absolute position of the L&M CUL late HIERARCH ESO INS CLLY4 POS = 17422 / [Enc] Position of the L&M CUL lateral Y adj HIERARCH ESO INS CLTP1 ENC = 35189 / [Enc] Absolute position of the L&M CUL tip HIERARCH ESO INS CLTP1 POS = 35189 / [Enc] Position of the coalignment Tip adj. HIERARCH ESO INS CLTP2 ENC = 27313 / [Enc] Absolute position of the L&M CUL tip HIERARCH ESO INS CLTP2 POS = 27313 / [Enc] Position of the coalignment Tip adj. HIERARCH ESO INS CLTP3 ENC = 25821 / [Enc] Absolute position of the L&M CUL tip HIERARCH ESO INS CLTP3 POS = 25821 / [Enc] Position of the coalignment Tip adj. HIERARCH ESO INS CLTP4 ENC = 21693 / [Enc] Absolute position of the L&M CUL tip HIERARCH ESO INS CLTP4 POS = 21693 / [Enc] Position of the coalignment Tip adj. HIERARCH ESO INS CLTT1 ENC = 40967 / [Enc] Absolute position of the L&M coalignm HIERARCH ESO INS CLTT1 POS = 40967 / [Enc] Position of the coalignment Tilt adj. HIERARCH ESO INS CLTT2 ENC = 31040 / [Enc] Absolute position of the L&M coalignm HIERARCH ESO INS CLTT2 POS = 31040 / [Enc] Position of the coalignment Tilt adj. HIERARCH ESO INS CLTT3 ENC = 28255 / [Enc] Absolute position of the L&M coalignm HIERARCH ESO INS CLTT3 POS = 28255 / [Enc] Position of the coalignment Tilt adj. HIERARCH ESO INS CLTT4 ENC = 34608 / [Enc] Absolute position of the L&M coalignm HIERARCH ESO INS CLTT4 POS = 34608 / [Enc] Position of the coalignment Tilt adj. HIERARCH ESO INS CNLX1 ENC = 22087 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLX1 POS = 22087 / [Enc] Position of the N CUN lateral X adj. HIERARCH ESO INS CNLX2 ENC = 38097 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLX2 POS = 38097 / [Enc] Position of the N CUN lateral X adj. HIERARCH ESO INS CNLX3 ENC = 33572 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLX3 POS = 33572 / [Enc] Position of the N CUN lateral X adj. HIERARCH ESO INS CNLX4 ENC = 26235 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLX4 POS = 26235 / [Enc] Position of the N CUN lateral X adj. HIERARCH ESO INS CNLY1 ENC = 40499 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLY1 POS = 40499 / [Enc] Position of the N CUN lateral Y adj. HIERARCH ESO INS CNLY2 ENC = 30041 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLY2 POS = 30041 / [Enc] Position of the N CUN lateral Y adj. HIERARCH ESO INS CNLY3 ENC = 19113 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLY3 POS = 19113 / [Enc] Position of the N CUN lateral Y adj. HIERARCH ESO INS CNLY4 ENC = 20575 / [Enc] Absolute position of the N CUN latera HIERARCH ESO INS CNLY4 POS = 20575 / [Enc] Position of the N CUN lateral Y adj. HIERARCH ESO INS CNTP1 ENC = 33501 / [Enc] Absolute position of the N CUN tip ad HIERARCH ESO INS CNTP1 POS = 33501 / [Enc] Position of the N CUN tip adj. Device HIERARCH ESO INS CNTP2 ENC = 34239 / [Enc] Absolute position of the N CUN tip ad HIERARCH ESO INS CNTP2 POS = 34239 / [Enc] Position of the N CUN tip adj. Device HIERARCH ESO INS CNTP3 ENC = 33691 / [Enc] Absolute position of the N CUN tip ad HIERARCH ESO INS CNTP3 POS = 33691 / [Enc] Position of the N CUN tip adj. Device HIERARCH ESO INS CNTP4 ENC = 36321 / [Enc] Absolute position of the N CUN tip ad HIERARCH ESO INS CNTP4 POS = 36321 / [Enc] Position of the N CUN tip adj. Device HIERARCH ESO INS CNTT1 ENC = 33951 / [Enc] Absolute position of the N CUN tilt a HIERARCH ESO INS CNTT1 POS = 33951 / [Enc] Position of the CUN tilt adj. device. HIERARCH ESO INS CNTT2 ENC = 38493 / [Enc] Absolute position of the N CUN tilt a HIERARCH ESO INS CNTT2 POS = 38493 / [Enc] Position of the CUN tilt adj. device. HIERARCH ESO INS CNTT3 ENC = 34100 / [Enc] Absolute position of the N CUN tilt a HIERARCH ESO INS CNTT3 POS = 34100 / [Enc] Position of the CUN tilt adj. device. HIERARCH ESO INS CNTT4 ENC = 41051 / [Enc] Absolute position of the N CUN tilt a HIERARCH ESO INS CNTT4 POS = 41051 / [Enc] Position of the CUN tilt adj. device. HIERARCH ESO INS CPL1 ENC = 36324 / [Enc] Absolute position of the L&M CPL devic HIERARCH ESO INS CPL1 POS = 36324 / [Enc] Position of the L&M CPL device. HIERARCH ESO INS CPL2 ENC = 38440 / [Enc] Absolute position of the L&M CPL devic HIERARCH ESO INS CPL2 POS = 38440 / [Enc] Position of the L&M CPL device. HIERARCH ESO INS CPL3 ENC = 21238 / [Enc] Absolute position of the L&M CPL devic HIERARCH ESO INS CPL3 POS = 21238 / [Enc] Position of the L&M CPL device. HIERARCH ESO INS CPL4 ENC = 20262 / [Enc] Absolute position of the L&M CPL devic HIERARCH ESO INS CPL4 POS = 20262 / [Enc] Position of the L&M CPL device. HIERARCH ESO INS CPN1 ENC = 48266 / [Enc] Absolute position of the N CPN device. HIERARCH ESO INS CPN1 POS = 48266 / [Enc] Position of the N CPN device. HIERARCH ESO INS CPN2 ENC = 31146 / [Enc] Absolute position of the N CPN device. HIERARCH ESO INS CPN2 POS = 31146 / [Enc] Position of the N CPN device. HIERARCH ESO INS CPN3 ENC = 21100 / [Enc] Absolute position of the N CPN device. HIERARCH ESO INS CPN3 POS = 21100 / [Enc] Position of the N CPN device. HIERARCH ESO INS CPN4 ENC = 26637 / [Enc] Absolute position of the N CPN device. HIERARCH ESO INS CPN4 POS = 26637 / [Enc] Position of the N CPN device. HIERARCH ESO INS DATE = '2018-01-01' / Instrument release date (yyyy-mm-dd). HIERARCH ESO INS DIAPH ENC = 4003 / [Enc] Absolute position of the diaphragm uni HIERARCH ESO INS DIAPH POS = 28.10 / [mm] Absolute position of the diaphragm uni HIERARCH ESO INS DID1 = 'MATISSE_ICS-395704' / Data dictionary for INS. HIERARCH ESO INS DID2 = 'PRIMARY-FITS-1.2' / Data dictionary for INS. HIERARCH ESO INS DIL ENC = -965492 / [Enc] L&M DIL wheel absolute position. HIERARCH ESO INS DIL ID = 'LOW' / L&M DIL unique id. HIERARCH ESO INS DIL NAME = 'LOW' / L&M DIL name. HIERARCH ESO INS DIL NO = 6 / L&M DIL wheel position index. HIERARCH ESO INS DIN ENC = -953508 / [Enc] N DIL wheel absolute position. HIERARCH ESO INS DIN ID = 'LOW' / N DIL unique id. HIERARCH ESO INS DIN NAME = 'LOW' / N DIL name. HIERARCH ESO INS DIN NO = 6 / N DIL wheel position index. HIERARCH ESO INS FFD ENC = 4800 / [Enc] Component absolute position. HIERARCH ESO INS FFD ID = 'PUP20' / FFD unique ID. HIERARCH ESO INS FFD NAME = 'PUP20' / FFD name. HIERARCH ESO INS FFD NO = 1 / Flat Field Device slot number. HIERARCH ESO INS FFD TYPE = 'MASK' / FFD element type. HIERARCH ESO INS FFDC ID = 'ffdc' / Flat Field Device ID. HIERARCH ESO INS FFDC INTPOWER = 0.000000 / Flat Field Device intensity in perce HIERARCH ESO INS FFDC NAME = 'FFD control' / Flat Field Device name. HIERARCH ESO INS FFDC ST = F / Flat Field Device activated. HIERARCH ESO INS FFDC STAT = 'OFF' / Flat Field Device position. HIERARCH ESO INS FFDC SWSIM = T / If T, Flat Field Device is software simulated. HIERARCH ESO INS FIL ENC = -996001 / [Enc] L&M FIL wheel absolute position. HIERARCH ESO INS FIL ID = 'LM' / L&M FIL unique id. HIERARCH ESO INS FIL NAME = 'LM' / L&M FIL name. HIERARCH ESO INS FIL NO = 2 / L&M FIL wheel position index. HIERARCH ESO INS FIN ENC = -514957 / [Enc] N FIN wheel absolute position. HIERARCH ESO INS FIN ID = 'OPEN' / N FIN unique id. HIERARCH ESO INS FIN NAME = 'OPEN' / N FIN name. HIERARCH ESO INS FIN NO = 1 / Filter wheel position index. HIERARCH ESO INS ID = 'MATISSE/176642' / Instrument ID. HIERARCH ESO INS MODE = 'HYBRID' / Instrument mode used. HIERARCH ESO INS OML1 PERIOD = 0.156 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OML1 ST = T / Start or stop the L&M OPD modulation. HIERARCH ESO INS OML1 START = '2024-10-31T04:51:21.00' / Start UTC time of the L HIERARCH ESO INS OML1 VOLT = 4.401245 / Move the L&M OML piezo manually in volt HIERARCH ESO INS OML2 PERIOD = 0.156 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OML2 ST = T / Start or stop the L&M OPD modulation. HIERARCH ESO INS OML2 START = '2024-10-31T04:51:21.00' / Start UTC time of the L HIERARCH ESO INS OML2 VOLT = 4.153137 / Move the L&M OML piezo manually in volt HIERARCH ESO INS OML3 PERIOD = 0.156 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OML3 ST = T / Start or stop the L&M OPD modulation. HIERARCH ESO INS OML3 START = '2024-10-31T04:51:21.00' / Start UTC time of the L HIERARCH ESO INS OML3 VOLT = 3.892212 / Move the L&M OML piezo manually in volt HIERARCH ESO INS OML4 PERIOD = 0.156 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OML4 ST = T / Start or stop the L&M OPD modulation. HIERARCH ESO INS OML4 START = '2024-10-31T04:51:21.00' / Start UTC time of the L HIERARCH ESO INS OML4 VOLT = 3.523254 / Move the L&M OML piezo manually in volt HIERARCH ESO INS OMN1 PERIOD = 0.026 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OMN1 ST = T / Start or stop the N OPD modulation. HIERARCH ESO INS OMN1 START = '2024-10-31T04:51:21.00' / Start UTC time of the N HIERARCH ESO INS OMN1 VOLT = 4.920654 / Move the N OMN piezo manually in volt un HIERARCH ESO INS OMN2 PERIOD = 0.026 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OMN2 ST = T / Start or stop the N OPD modulation. HIERARCH ESO INS OMN2 START = '2024-10-31T04:51:21.00' / Start UTC time of the N HIERARCH ESO INS OMN2 VOLT = 4.364624 / Move the N OMN piezo manually in volt un HIERARCH ESO INS OMN3 PERIOD = 0.026 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OMN3 ST = T / Start or stop the N OPD modulation. HIERARCH ESO INS OMN3 START = '2024-10-31T04:51:21.00' / Start UTC time of the N HIERARCH ESO INS OMN3 VOLT = 7.012329 / Move the N OMN piezo manually in volt un HIERARCH ESO INS OMN4 PERIOD = 0.026 / [sec] Timer output period of the L&M OPD HIERARCH ESO INS OMN4 ST = T / Start or stop the N OPD modulation. HIERARCH ESO INS OMN4 START = '2024-10-31T04:51:21.00' / Start UTC time of the N HIERARCH ESO INS OMN4 VOLT = 8.931580 / Move the N OMN piezo manually in volt un HIERARCH ESO INS PIL ENC = 0 / [Enc] Component absolute position. HIERARCH ESO INS PIL ID = 'PHOTO' / PIL unique ID. HIERARCH ESO INS PIL NAME = 'PHOTO' / PIL name. HIERARCH ESO INS PIL NO = 1 / PIL slot number. HIERARCH ESO INS PIL TYPE = 'NA' / OPIL element type. HIERARCH ESO INS PIN ENC = 232001 / [Enc] Component absolute position. HIERARCH ESO INS PIN ID = 'INTER' / PIN unique ID. HIERARCH ESO INS PIN NAME = 'INTER' / PIN name. HIERARCH ESO INS PIN NO = 2 / PIN slot number. HIERARCH ESO INS PIN TYPE = 'NA' / PIN element type. HIERARCH ESO INS POL ENC = -12000 / L&M POL wheel absolute position [Enc]. HIERARCH ESO INS POL ID = 'OPEN' / L&M POL unique id. HIERARCH ESO INS POL NAME = 'OPEN' / L&M POL name. HIERARCH ESO INS POL NO = 1 / L&M POL wheel position index. HIERARCH ESO INS POL SWSIM = T / If T, L&M POL is software simulated. HIERARCH ESO INS PON ENC = -19994 / N PON wheel absolute position [Enc]. HIERARCH ESO INS PON ID = 'OPEN' / N PON unique id. HIERARCH ESO INS PON NAME = 'OPEN' / N PON name. HIERARCH ESO INS PON NO = 1 / Filter wheel position index. HIERARCH ESO INS SENS1 STAT = 128 / Prevacuum Pressure Gauge Status. HIERARCH ESO INS SENS10 VAL = 91.75 / [K] 80K radiation shield top Value. HIERARCH ESO INS SENS100 STAT = 8228 / Turbo Molecular Pump Status. HIERARCH ESO INS SENS101 STAT = 8708 / Vacuum Insulating Valve Status. HIERARCH ESO INS SENS102 STAT = 8196 / Re-pressuration Valve Status. HIERARCH ESO INS SENS103 STAT = F / LN2 tank level exceeded alarm. HIERARCH ESO INS SENS104 STAT = F / Pressure in Prevacuum line is OK. HIERARCH ESO INS SENS105 STAT = F / Turbo Molecular pump running nominal. HIERARCH ESO INS SENS106 STAT = F / Dry Nitrogen line is connected. HIERARCH ESO INS SENS107 STAT = T / Cabinet cooling flow rate OK. HIERARCH ESO INS SENS108 STAT = 8192 / COB Warmup Heater Status. HIERARCH ESO INS SENS109 STAT = 8192 / LN2 Vessel Warmup Heater Status. HIERARCH ESO INS SENS11 STAT = 1 / 80K radiation shield bot Status. HIERARCH ESO INS SENS110 STAT = 8192 / Sorption Pump Heater Status. HIERARCH ESO INS SENS111 STAT = 99 / Pulsetube Compressor Status. HIERARCH ESO INS SENS112 STAT = 128 / Voltage Monitoring - COB Heater alarm. HIERARCH ESO INS SENS113 STAT = 128 / Current Monitoring - COB Heater alarm. HIERARCH ESO INS SENS114 STAT = 128 / Voltage Monitoring - LN2 Vessel Heater ala HIERARCH ESO INS SENS115 STAT = 128 / Current Monitoring - LN2 Vessel Heater . HIERARCH ESO INS SENS116 STAT = 128 / Prevacuum Pressure Gauge Status. HIERARCH ESO INS SENS117 VAL = 9.17E+00 / [mbar] Prevacuum Pressure Gauge Value. HIERARCH ESO INS SENS118 STAT = 65 / Cryostat Pressure Gauge 1 Status. HIERARCH ESO INS SENS119 VAL = 2.48E-07 / [mbar] Cryostat Pressure Gauge 1 Value HIERARCH ESO INS SENS12 VAL = 83.76 / [K] 80K radiation shield bot Value. HIERARCH ESO INS SENS120 STAT = 1 / Cryostat Pressure Gauge 2 Status. HIERARCH ESO INS SENS121 VAL = 2.22E-07 / [mbar] Cryostat Pressure Gauge 2 Value HIERARCH ESO INS SENS122 STAT = 128 / Turbomolecular pump speed Status. HIERARCH ESO INS SENS123 VAL = 0.00 / [rpm] Turbomolecular pump speed Value. HIERARCH ESO INS SENS124 STAT = 1 / 80K radiation shield top Status. HIERARCH ESO INS SENS125 VAL = 92.54 / [K] 80K radiation shield top Value. HIERARCH ESO INS SENS126 STAT = 1 / 80K radiation shield bot Status. HIERARCH ESO INS SENS127 VAL = 82.30 / [K] 80K radiation shield bot Value. HIERARCH ESO INS SENS128 STAT = 1 / spatial filter actuator Status. HIERARCH ESO INS SENS129 VAL = 29.90 / [K] spatial filter actuator Value. HIERARCH ESO INS SENS13 STAT = 1 / spatial filter actuator Status. HIERARCH ESO INS SENS130 STAT = 1 / backbone, near cold head Status. HIERARCH ESO INS SENS131 VAL = 29.67 / [K] backbone, near cold head Value. HIERARCH ESO INS SENS132 STAT = 1 / wheel box actuator Status. HIERARCH ESO INS SENS133 VAL = 30.45 / [K] wheel box actuator Value. HIERARCH ESO INS SENS134 STAT = 1 / camera ZnSe lens Status. HIERARCH ESO INS SENS135 VAL = 30.11 / [K] camera ZnSe lens Value. HIERARCH ESO INS SENS136 STAT = '1' / camera ZnSe lens (redundant) Status HIERARCH ESO INS SENS137 VAL = 30.10 / [K] camera ZnSe lens (redundant) Value. HIERARCH ESO INS SENS138 STAT = 1 / BSB - near photo/interferometric act. Status HIERARCH ESO INS SENS139 VAL = 30.81 / [K] BSB - near photo/interferometric act. HIERARCH ESO INS SENS14 VAL = 31.05 / [K] spatial filter actuator Value. HIERARCH ESO INS SENS140 STAT = 1 / Detector operation temperature Status. HIERARCH ESO INS SENS141 VAL = 8.000 / [K] Detector operation temperature Value. HIERARCH ESO INS SENS142 STAT = 1 / Detector warmup heater sensor Status. HIERARCH ESO INS SENS143 VAL = 3.51 / [K] Detector warmup heater sensor Value. HIERARCH ESO INS SENS144 STAT = 1 / Sorption pump temperature Status. HIERARCH ESO INS SENS145 VAL = 84.69 / [K] Sorption pump temperature Value. HIERARCH ESO INS SENS146 STAT = 1 / Ambient temperature Status. HIERARCH ESO INS SENS147 VAL = 17.01 / [C] Ambient temperature Value. HIERARCH ESO INS SENS148 STAT = 1 / Cabinet inside top temperature Status. HIERARCH ESO INS SENS149 VAL = 18.26 / [C] Cabinet inside top temperature Value. HIERARCH ESO INS SENS15 STAT = 1 / backbone, near cold head Status. HIERARCH ESO INS SENS150 STAT = 1 / Cabinet inside bottom temperature Status. HIERARCH ESO INS SENS151 VAL = 15.79 / [C] Cabinet inside bottom temperature Val HIERARCH ESO INS SENS152 STAT = 1 / PLC unit temperature Status. HIERARCH ESO INS SENS153 VAL = 19.79 / [C] PLC unit temperature Value. HIERARCH ESO INS SENS154 STAT = 1 / Warmup heater unit temperature Status. HIERARCH ESO INS SENS155 VAL = 17.90 / [C] Warmup heater unit temperature Value. HIERARCH ESO INS SENS156 STAT = 1 / Cabinet coolant supply temperature Status. HIERARCH ESO INS SENS157 VAL = 7.96 / [C] Cabinet coolant supply temperature Val HIERARCH ESO INS SENS158 STAT = 1 / Cabinet coolant return temperature Status. HIERARCH ESO INS SENS159 VAL = 9.38 / [C] Cabinet coolant return temperature Val HIERARCH ESO INS SENS16 VAL = 30.68 / [K] backbone, near cold head Value. HIERARCH ESO INS SENS160 VAL = 55.93 / [%] Cabinet cooling valve commanded posit HIERARCH ESO INS SENS161 STAT = 515 / LN2 tank level detection - empty Status. HIERARCH ESO INS SENS162 VAL = 75.42 / [%] LN2 tank level detection - empty Valu HIERARCH ESO INS SENS163 STAT = F / LM-band cryostat - CAS alarm active. HIERARCH ESO INS SENS164 STAT = F / LM-band cryostat - collective alarm active. HIERARCH ESO INS SENS165 STAT = F / Evacuation Sequence alarm. HIERARCH ESO INS SENS166 STAT = F / SP regeneration Sequence alarm. HIERARCH ESO INS SENS167 STAT = F / cooldown sequence alarm. HIERARCH ESO INS SENS168 STAT = F / warmup sequence alarm. HIERARCH ESO INS SENS169 STAT = F / Cabinet Coolant Flow low alarm. HIERARCH ESO INS SENS17 STAT = 1 / wheel box actuator Status. HIERARCH ESO INS SENS170 STAT = F / He-compressor coolant flow low alarm. HIERARCH ESO INS SENS171 STAT = F / He-compressor cabinet temperature alarm. HIERARCH ESO INS SENS172 STAT = F / PSU Vacuum System alarm. HIERARCH ESO INS SENS173 STAT = F / Roughing Pump alarm. HIERARCH ESO INS SENS174 STAT = F / Turbomolecular Pump alarm. HIERARCH ESO INS SENS175 STAT = F / Vacuum Insulating Valve alarm. HIERARCH ESO INS SENS176 STAT = F / Re-PressurizationValve alarm. HIERARCH ESO INS SENS177 STAT = F / PSU Warm-Up Heaters alarm. HIERARCH ESO INS SENS178 STAT = F / Cold Bench Heater alarm. HIERARCH ESO INS SENS179 STAT = F / LN2 Vessel Heater alarm. HIERARCH ESO INS SENS18 VAL = 31.74 / [K] wheel box actuator Value. HIERARCH ESO INS SENS180 STAT = F / Sorption Pump Heater alarm. HIERARCH ESO INS SENS181 STAT = F / Detector Warm-Up Heater alarm. HIERARCH ESO INS SENS182 STAT = F / Detector control heater alarm. HIERARCH ESO INS SENS183 STAT = F / Detector preamplifier heater alarm. HIERARCH ESO INS SENS184 STAT = F / Pulsetube Cooler alarm. HIERARCH ESO INS SENS185 STAT = 3 / Operation mode. HIERARCH ESO INS SENS186 STAT = 1 / Evacuation sequence step. HIERARCH ESO INS SENS187 STAT = 1 / SP regeneration sequence step. HIERARCH ESO INS SENS188 STAT = 1 / Warm-up sequence step. HIERARCH ESO INS SENS189 VAL = 0.00 / [%] percentage the DW heater is running. HIERARCH ESO INS SENS19 STAT = 1 / camera ZnSe lens Status. HIERARCH ESO INS SENS190 VAL = 0.00 / [%] percentage the COB heater is running. HIERARCH ESO INS SENS191 VAL = 0.00 / [%] percentage the LN heater is running. HIERARCH ESO INS SENS192 VAL = 36.00 / [%] percentage the DET heater is running. HIERARCH ESO INS SENS193 STAT = 1 / current range of the DET heater. HIERARCH ESO INS SENS194 STAT = F / Evacuation sequence. HIERARCH ESO INS SENS195 STAT = F / SP regeneration sequence. HIERARCH ESO INS SENS196 STAT = F / Warmup sequence. HIERARCH ESO INS SENS197 STAT = F / Cryostat is warm. HIERARCH ESO INS SENS198 STAT = F / Cryostat is cold. HIERARCH ESO INS SENS199 STAT = F / Cryostat T >= Warmup setpoint. HIERARCH ESO INS SENS2 VAL = 7.34E+01 / [mbar] Prevacuum Pressure Gauge Value. HIERARCH ESO INS SENS20 VAL = 31.39 / [K] camera ZnSe lens Value. HIERARCH ESO INS SENS200 STAT = F / Sorption Pump reached reg. temp T >= Reg. SP HIERARCH ESO INS SENS201 STAT = F / RMC motor control interlock. HIERARCH ESO INS SENS202 STAT = F / Cryostat pressure is atmospheric >= 7.0E2mba HIERARCH ESO INS SENS203 STAT = F / Cryostat pressure is <= 1 mbar. HIERARCH ESO INS SENS204 STAT = F / Cryostat pressure is <= 1E-2 mbar. HIERARCH ESO INS SENS205 STAT = F / Cryostat pressure is <= 1E-3 mbar. HIERARCH ESO INS SENS206 STAT = F / Pressure Gauge VG2 is active. HIERARCH ESO INS SENS207 STAT = F / Pressure Gauge VG3 is active. HIERARCH ESO INS SENS208 STAT = F / PSU Vacuum System Pump on/off. HIERARCH ESO INS SENS209 STAT = F / PSU Heater Status on/off. HIERARCH ESO INS SENS21 STAT = 1 / camera ZnSe lens (redundant) Status. HIERARCH ESO INS SENS210 STAT = 8196 / Roughing Vacuum Pump Status. HIERARCH ESO INS SENS211 STAT = 8228 / Turbo Molecular Pump Status. HIERARCH ESO INS SENS212 STAT = 8708 / Vacuum Insulating Valve Status. HIERARCH ESO INS SENS213 STAT = 8196 / Re-pressuration Valve Status. HIERARCH ESO INS SENS214 STAT = F / LN2 tank level exceeded alarm. HIERARCH ESO INS SENS215 STAT = F / Pressure in Prevacuum line is OK. HIERARCH ESO INS SENS216 STAT = F / Turbo Molecular pump running nominal. HIERARCH ESO INS SENS217 STAT = F / Dry Nitrogen line is connected. HIERARCH ESO INS SENS218 STAT = T / Cabinet cooling flow rate OK. HIERARCH ESO INS SENS219 STAT = 8192 / COB Warmup Heater Status. HIERARCH ESO INS SENS22 VAL = 31.43 / [K] camera ZnSe lens (redundant) Value. HIERARCH ESO INS SENS220 STAT = 8192 / LN2 Vessel Warmup Heater Status. HIERARCH ESO INS SENS221 STAT = 8192 / Sorption Pump Heater Status. HIERARCH ESO INS SENS222 STAT = 99 / Pulsetube Compressor Status. HIERARCH ESO INS SENS223 STAT = 128 / Voltage Monitoring - COB Heater alarm. HIERARCH ESO INS SENS224 STAT = 128 / Current Monitoring - COB Heater alarm. HIERARCH ESO INS SENS225 STAT = 128 / Voltage Monitoring - LN2 Vessel Heater ala HIERARCH ESO INS SENS226 STAT = 128 / Current Monitoring - LN2 Vessel Heater. HIERARCH ESO INS SENS227 STAT = T / Cabinet Coolant Flow Switch OK. HIERARCH ESO INS SENS228 STAT = T / Flow rate NGC L OK. HIERARCH ESO INS SENS229 STAT = T / Flow rate NGC N OK. HIERARCH ESO INS SENS23 STAT = 1 / BSB - near photo/interferometric act. Status. HIERARCH ESO INS SENS230 STAT = T / Flow rate IR Lamp OK. HIERARCH ESO INS SENS231 STAT = F / WOP - CAS alarm active. HIERARCH ESO INS SENS232 STAT = F / WOP - collective alarm active. HIERARCH ESO INS SENS233 STAT = F / Cabinet Coolant Flow Low Alarm. HIERARCH ESO INS SENS234 STAT = F / Flow rate NGC L Low Alarm. HIERARCH ESO INS SENS235 STAT = F / Flow rate NGC N Low Alarm. HIERARCH ESO INS SENS236 STAT = F / Flow rate IR Lamp Low Alarm. HIERARCH ESO INS SENS237 STAT = 4 / PSU Cabinet Equipement Status. HIERARCH ESO INS SENS238 STAT = 8200 / Laser Module Status. HIERARCH ESO INS SENS239 STAT = 1 / SOS Ambient temperature Status. HIERARCH ESO INS SENS24 VAL = 31.84 / [K] BSB - near photo/interferometric act. HIERARCH ESO INS SENS240 VAL = 14.66 / [C] SOS Ambient temperature Value. HIERARCH ESO INS SENS241 STAT = 1 / CPL Ambient temperature Status. HIERARCH ESO INS SENS242 VAL = 14.66 / [C] CPL Ambient temperature Value. HIERARCH ESO INS SENS243 STAT = 1 / CPN Ambient temperature Status. HIERARCH ESO INS SENS244 VAL = 14.52 / [C] CPN Ambient temperature Value. HIERARCH ESO INS SENS245 STAT = 1 / ARC Ambient temperature Status. HIERARCH ESO INS SENS246 VAL = 13.59 / [C] ARC Ambient temperature Value. HIERARCH ESO INS SENS247 STAT = 1 / ARC FFD temperature Status. HIERARCH ESO INS SENS248 VAL = 16.48 / [C] ARC FFD temperature Value. HIERARCH ESO INS SENS249 STAT = 65 / ARC box temperature Status. HIERARCH ESO INS SENS25 STAT = 1 / Detector operation temperature Status. HIERARCH ESO INS SENS250 VAL = 8.11 / [C] ARC box temperature Value. HIERARCH ESO INS SENS251 STAT = 1 / ARC screen temperature Status. HIERARCH ESO INS SENS252 VAL = 8.08 / [C] ARC screen temperature Value. HIERARCH ESO INS SENS253 STAT = 1 / Coolant supply temperature Status. HIERARCH ESO INS SENS254 VAL = 7.47 / [C] Coolant temperature Value. HIERARCH ESO INS SENS255 STAT = 1 / Coolant return temperature Status. HIERARCH ESO INS SENS256 VAL = 8.18 / [C] Coolant return temperature Value. HIERARCH ESO INS SENS257 STAT = 1 / Cabinet ambient temperature Status. HIERARCH ESO INS SENS258 VAL = 17.55 / [C] Cabinet ambient temperature Value. HIERARCH ESO INS SENS259 STAT = 1 / Cabinet inside top temperature Status. HIERARCH ESO INS SENS26 VAL = 40.002 / [K] Detector operation temperature Value. HIERARCH ESO INS SENS260 VAL = 19.50 / [C] Cabinet inside top temperature Value. HIERARCH ESO INS SENS261 STAT = 1 / Cabinet inside bottom temperature Status. HIERARCH ESO INS SENS262 VAL = 15.72 / [C] Cabinet inside bottom temperature Val HIERARCH ESO INS SENS263 STAT = 1 / PLC temperature Status. HIERARCH ESO INS SENS264 VAL = 21.10 / [C] PLC temperature Value. HIERARCH ESO INS SENS265 STAT = 1 / Cabinet Coolant Supply temperature Status. HIERARCH ESO INS SENS266 VAL = 7.98 / [C] Cabinet Coolant Supply temperature Val HIERARCH ESO INS SENS267 STAT = 1 / Cabinet Coolant Return temperature Status. HIERARCH ESO INS SENS268 VAL = 10.71 / [C] Cabinet Coolant Return temperature Va HIERARCH ESO INS SENS269 STAT = 1 / Motion Control Unit 1 temperature Status. HIERARCH ESO INS SENS27 STAT = 1 / Detector preamp temperature (H2RG only) Statu HIERARCH ESO INS SENS270 VAL = 21.61 / [C] Motion Control Unit 1 temperature Val HIERARCH ESO INS SENS271 STAT = 1 / Motion Control Unit 2 temperature Status. HIERARCH ESO INS SENS272 VAL = 22.12 / [C] Motion Control Unit 2 temperature Val HIERARCH ESO INS SENS273 STAT = 1 / Motion Control Unit 3 temperature Status. HIERARCH ESO INS SENS274 VAL = 20.92 / [C] Motion Control Unit 3 temperature Val HIERARCH ESO INS SENS275 STAT = 1 / Motion Control Unit 4 temperature Status. HIERARCH ESO INS SENS276 VAL = 21.51 / [C] Motion Control Unit 4 temperature Val HIERARCH ESO INS SENS277 STAT = 1 / SCP1 supply temperature Status. HIERARCH ESO INS SENS278 VAL = 6.66 / [C] SCP1 supply temperature Value. HIERARCH ESO INS SENS279 STAT = 1 / SCP1 return temperature Status. HIERARCH ESO INS SENS28 VAL = 81.357 / [K] Detector preamp temperature (H2RG onl HIERARCH ESO INS SENS280 VAL = 19.67 / [C] SCP1 return temperature Value. HIERARCH ESO INS SENS281 STAT = 1 / SCP2 supply temperature Status. HIERARCH ESO INS SENS282 VAL = 7.70 / [C] SCP2 supply temperature Value. HIERARCH ESO INS SENS283 STAT = 1 / SCP2 return temperature Status. HIERARCH ESO INS SENS284 VAL = 10.03 / [C] SCP2 return temperature Value. HIERARCH ESO INS SENS285 VAL = 55.94 / [%] Cabinet cooling valve commanded posit HIERARCH ESO INS SENS286 STAT = 4 / IR Lamp housing cooling valve Status. HIERARCH ESO INS SENS287 VAL = 0.00 / [%] IR Lamp housing cooling valve commande HIERARCH ESO INS SENS288 VAL = 0.00 / [%] FFDC PID Loop manipulated variable. HIERARCH ESO INS SENS29 STAT = 1 / Detector warmup heater sensor Status. HIERARCH ESO INS SENS3 STAT = 65 / Cryostat Pressure Gauge 1 Status. HIERARCH ESO INS SENS30 VAL = 3.86 / [K] Detector warmup heater sensor Value. HIERARCH ESO INS SENS31 STAT = 1 / Sorption pump temperature Status. HIERARCH ESO INS SENS32 VAL = 84.44 / [K] Sorption pump temperature Value. HIERARCH ESO INS SENS33 STAT = 1 / Ambient temperature Status. HIERARCH ESO INS SENS34 VAL = 17.33 / [C] Ambient temperature Value. HIERARCH ESO INS SENS35 STAT = 1 / Cabinet inside top temperature Status. HIERARCH ESO INS SENS36 VAL = 18.45 / [C] Cabinet inside top temperature Value. HIERARCH ESO INS SENS37 STAT = 1 / Cabinet inside bottom temperature Status. HIERARCH ESO INS SENS38 VAL = 16.50 / [C] Cabinet inside bottom temperature Valu HIERARCH ESO INS SENS39 STAT = 1 / PLC unit temperature Status. HIERARCH ESO INS SENS4 VAL = 9.32E-08 / [mbar] Cryostat Pressure Gauge 1 Value. HIERARCH ESO INS SENS40 VAL = 19.55 / [C] PLC unit temperature Value. HIERARCH ESO INS SENS41 STAT = 1 / Warmup heater unit temperature Status. HIERARCH ESO INS SENS42 VAL = 18.60 / [C] Warmup heater unit temperature Value. HIERARCH ESO INS SENS43 STAT = 1 / Cabinet coolant supply temperature Status. HIERARCH ESO INS SENS44 VAL = 8.13 / [C] Cabinet coolant supply temperature Valu HIERARCH ESO INS SENS45 STAT = 1 / Cabinet coolant return temperature Status. HIERARCH ESO INS SENS46 VAL = 8.52 / [C] Cabinet coolant return temperature Valu HIERARCH ESO INS SENS47 VAL = 41.12 / [%] Cabinet cooling valve commanded positi HIERARCH ESO INS SENS48 STAT = 515 / LN2 tank level detection - empty Status. HIERARCH ESO INS SENS49 VAL = 75.72 / [%] LN2 tank level detection - empty Value HIERARCH ESO INS SENS5 STAT = 1 / Cryostat Pressure Gauge 2 Status. HIERARCH ESO INS SENS50 STAT = F / LM-band cryostat - CAS alarm active. HIERARCH ESO INS SENS51 STAT = F / LM-band cryostat - collective alarm active. HIERARCH ESO INS SENS52 STAT = F / Evacuation Sequence alarm. HIERARCH ESO INS SENS53 STAT = F / SP regeneration Sequence alarm. HIERARCH ESO INS SENS54 STAT = F / cooldown sequence alarm. HIERARCH ESO INS SENS55 STAT = F / warmup sequence alarm. HIERARCH ESO INS SENS56 STAT = F / Cabinet Coolant Flow low alarm. HIERARCH ESO INS SENS57 STAT = F / He-compressor coolant flow low alarm. HIERARCH ESO INS SENS58 STAT = F / He-compressor cabinet temperature alarm. HIERARCH ESO INS SENS59 STAT = F / PSU Vacuum System alarm. HIERARCH ESO INS SENS6 VAL = 8.75E-08 / [mbar] Cryostat Pressure Gauge 2 Value. HIERARCH ESO INS SENS60 STAT = F / Roughing Pump alarm. HIERARCH ESO INS SENS61 STAT = F / Turbomolecular Pump alarm. HIERARCH ESO INS SENS62 STAT = F / Vacuum Insulating Valve alarm. HIERARCH ESO INS SENS63 STAT = F / Re-PressurizationValve alarm. HIERARCH ESO INS SENS64 STAT = F / PSU Warm-Up Heaters alarm. HIERARCH ESO INS SENS65 STAT = F / Cold Bench Heater alarm. HIERARCH ESO INS SENS66 STAT = F / LN2 Vessel Heater alarm. HIERARCH ESO INS SENS67 STAT = F / Sorption Pump Heater alarm. HIERARCH ESO INS SENS68 STAT = F / Detector Warm-Up Heater alarm. HIERARCH ESO INS SENS69 STAT = F / Detector control heater alarm. HIERARCH ESO INS SENS7 STAT = 128 / Turbomolecular pump speed Status. HIERARCH ESO INS SENS70 STAT = F / Detector preamplifier heater alarm. HIERARCH ESO INS SENS71 STAT = F / Pulsetube Cooler alarm. HIERARCH ESO INS SENS72 STAT = 3 / Operation mode. HIERARCH ESO INS SENS73 STAT = 1 / Evacuation sequence step. HIERARCH ESO INS SENS74 STAT = 1 / SP regeneration sequence step. HIERARCH ESO INS SENS75 STAT = 1 / Warm-up sequence step. HIERARCH ESO INS SENS76 VAL = 0.00 / [%] percentage the DW heater is running. HIERARCH ESO INS SENS77 VAL = 0.00 / [%] percentage the COB heater is running. HIERARCH ESO INS SENS78 VAL = 0.00 / [%] percentage the LN heater is running. HIERARCH ESO INS SENS79 VAL = 24.50 / [%] percentage the DET heater is running. HIERARCH ESO INS SENS8 VAL = 0.00 / [rpm] Turbomolecular pump speed Value. HIERARCH ESO INS SENS80 STAT = 1 / Current range of the DET heater. HIERARCH ESO INS SENS81 VAL = 0.00 / [%] percentage the DPT heater is running. HIERARCH ESO INS SENS82 STAT = 1 / Current range of the DPT heater. HIERARCH ESO INS SENS83 STAT = F / Evacuation sequence. HIERARCH ESO INS SENS84 STAT = F / SP regeneration sequence. HIERARCH ESO INS SENS85 STAT = F / Warmup sequence. HIERARCH ESO INS SENS86 STAT = F / Cryostat is warm. HIERARCH ESO INS SENS87 STAT = F / Cryostat is cold. HIERARCH ESO INS SENS88 STAT = F / Cryostat T >= Warmup setpoint. HIERARCH ESO INS SENS89 STAT = F / Sorption Pump reached reg. temp T >= Reg. SP HIERARCH ESO INS SENS9 STAT = 1 / 80K radiation shield top Status. HIERARCH ESO INS SENS90 STAT = F / RMC motor control interlock. HIERARCH ESO INS SENS91 STAT = F / Cryostat pressure is atmospheric >= 7.0E2mbar HIERARCH ESO INS SENS92 STAT = F / Cryostat pressure is <= 1 mbar. HIERARCH ESO INS SENS93 STAT = F / Cryostat pressure is <= 1E-2 mbar. HIERARCH ESO INS SENS94 STAT = F / Cryostat pressure is <= 1E-3 mbar. HIERARCH ESO INS SENS95 STAT = F / Pressure Gauge VG2 is active. HIERARCH ESO INS SENS96 STAT = F / Pressure Gauge VG3 is active. HIERARCH ESO INS SENS97 STAT = F / PSU Vacuum System Pump on/off. HIERARCH ESO INS SENS98 STAT = F / PSU Heater Status on/off. HIERARCH ESO INS SENS99 STAT = 8196 / Roughing Vacuum Pump Status. HIERARCH ESO INS SENSOR1 ID = 'sensor1' / Sensor device unique id. HIERARCH ESO INS SENSOR1 NAME = 'Siemens PLC LM band' / Sensor device common nam HIERARCH ESO INS SENSOR2 ID = 'sensor2' / Sensor device unique id. HIERARCH ESO INS SENSOR2 NAME = 'Siemens PLC N band' / Sensor device common name HIERARCH ESO INS SENSOR3 ID = 'sensor3' / Sensor device unique id. HIERARCH ESO INS SENSOR3 NAME = 'Siemens PLC WOB' / Sensor device common name. HIERARCH ESO INS SFL ENC = -90837 / [Enc] L&M Spatial Filter device absolute pos HIERARCH ESO INS SFL ID = '1.50' / L&M Spatial Filter device unique ID. HIERARCH ESO INS SFL NAME = '1.50' / L&M Spatial Filter device name. HIERARCH ESO INS SFL NO = 7 / L&M Spatial Filter device slot number. HIERARCH ESO INS SFL TYPE = 'NA' / L&M Spatial Filter device element type. HIERARCH ESO INS SFN ENC = -90848 / [Enc] N SFN device absolute position. HIERARCH ESO INS SFN ID = '2.00' / N SFN device unique ID. HIERARCH ESO INS SFN NAME = '2.00' / N SFN device name. HIERARCH ESO INS SFN NO = 7 / N SFN device slot number. HIERARCH ESO INS SFN TYPE = 'NA' / N SFN device element type. HIERARCH ESO INS SOS1 ENC = 207 / [Enc] Source Selector absolute position. HIERARCH ESO INS SOS1 ID = 'OUT' / Source Selector unique ID. HIERARCH ESO INS SOS1 NAME = 'OUT' / Source Selector name. HIERARCH ESO INS SOS1 NO = 1 / Source Selector slot number. HIERARCH ESO INS SOS1 TYPE = 'NA' / Source Selector type. HIERARCH ESO INS SOS2 ENC = 195 / [Enc] Source Selector absolute position. HIERARCH ESO INS SOS2 ID = 'OUT' / Source Selector unique ID. HIERARCH ESO INS SOS2 NAME = 'OUT' / Source Selector name. HIERARCH ESO INS SOS2 NO = 1 / Source Selector slot number. HIERARCH ESO INS SOS2 TYPE = 'NA' / Source Selector type. HIERARCH ESO INS SWSIM = 'NORMAL' / Software simulation. HIERARCH ESO INS SYNC = ' ' / ICS assembly for synchronisation. HIERARCH ESO INS TIMDL PERIOD = 0.156 / [sec] L&M Detector readout timer output HIERARCH ESO INS TIMDL ST = T / Start or stop the L&M Detector readout timer. HIERARCH ESO INS TIMDL START = '2024-10-31T04:51:21.00' / Start UTC for L&M Dete HIERARCH ESO INS TIMDN PERIOD = 0.026 / [sec] Timer output period of the N Detec HIERARCH ESO INS TIMDN ST = T / Start or stop the N Detector readout timer. HIERARCH ESO INS TIMDN START = '2024-10-31T04:51:21.00' / Start UTC for N Detect HIERARCH ESO ISS AIRM END = 1.736 / Airmass at end. HIERARCH ESO ISS AIRM START = 1.745 / Airmass at start. HIERARCH ESO ISS ALT = 34.881 / Altitude angles at start [deg]. HIERARCH ESO ISS AMBI FWHM END = 0.57 / Observatory seeing [arcsec]. HIERARCH ESO ISS AMBI FWHM START = 0.57 / Observatory seeing [arcsec]. HIERARCH ESO ISS AMBI IRSKY TEMP = -93.82 / Temperature of the IR sky, from radi HIERARCH ESO ISS AMBI IWV END = 1.28 / Integrated Water Vapor [mm] HIERARCH ESO ISS AMBI IWV START = 1.28 / Integrated Water Vapor [mm]. HIERARCH ESO ISS AMBI IWV30D END = 1.36 / IWV at 30deg elev [mm]. HIERARCH ESO ISS AMBI IWV30D START = 1.36 / IWV at 30deg elev [mm]. HIERARCH ESO ISS AMBI IWV30DSTD END = 0.00 / IWV at 30deg elev. [mm]. HIERARCH ESO ISS AMBI IWV30DSTD START = 0.00 / IWV at 30deg elev. [mm]. HIERARCH ESO ISS AMBI IWVSTD END = 0.01 / Integrated Water Vapor [mm]. HIERARCH ESO ISS AMBI IWVSTD START = 0.01 / Standard Deviation of Integrated Wat HIERARCH ESO ISS AMBI LRATE = -0.0129 / Observatory ambient lapse rate [K/m]. HIERARCH ESO ISS AMBI PRES = 743.60 / Observatory ambient air pressure [hPa]. HIERARCH ESO ISS AMBI RHUM = 8.50 / Relative humidity [percentage]. HIERARCH ESO ISS AMBI TAU0 END = 0.004137 / Coherence time [seconds]. HIERARCH ESO ISS AMBI TAU0 START = 0.004137 / Coherence time [seconds]. HIERARCH ESO ISS AMBI TEMP = 16.61 / Observatory ambient temperature [C]. HIERARCH ESO ISS AMBI TEMPDEW = -17.17 / Observatory ambient dew temperature [C] HIERARCH ESO ISS AMBI THETA0 END = 1.788000 / [arcsec] Isoplanatic angle. HIERARCH ESO ISS AMBI THETA0 START = 1.788000 / [arcsec] Isoplanatic angle. HIERARCH ESO ISS AMBI WINDDIR = 11.50 / Wind direction [deg]. HIERARCH ESO ISS AMBI WINDSP = 3.55 / Observatory wind speed [m/s]. HIERARCH ESO ISS ARAL IRISF NAME = 'K' / ARAL Iris filter (J,H,K)). HIERARCH ESO ISS ARAL MIRR12 NAME = 'OUT' / GRAVITY feeding optics (IN,OUT) HIERARCH ESO ISS ARAL MIRR13 NAME = 'IN' / MATISSE feeding optics 1 (IN,OU HIERARCH ESO ISS ARAL MIRR14 NAME = 'OUT' / PIONIER feeding optics (IN,OUT) HIERARCH ESO ISS ARAL MIRR15 NAME = 'IN' / MATISSE feeding optics 2 (IN,OU HIERARCH ESO ISS ARAL MIRR16 NAME = ' ' / VISITOR1 feeding optics A (FREE HIERARCH ESO ISS ARAL MIRR17 NAME = 'ONAXIS' / VISITOR1 feeding optics B (FREE HIERARCH ESO ISS ARAL MIRR18 NAME = ' ' / VISITOR1 feeding optics C (FREE HIERARCH ESO ISS ARAL MIRR19 NAME = ' ' / VISITOR2 feeding optics A (MIRR HIERARCH ESO ISS ARAL MIRR20 NAME = ' ' / VISITOR2 feeding optics B (MIRR HIERARCH ESO ISS ARAL MIRR21 NAME = ' ' / VISITOR2 feeding optics C (MIRR HIERARCH ESO ISS ARAL MIRR22 NAME = 'MIRR' / ARAL Iris feeding optics 1 (MIR HIERARCH ESO ISS ARAL MIRR23 NAME = 'MIRR' / ARAL Iris feeding optics 2 (MIR HIERARCH ESO ISS ARAL MIRR24 NAME = 'IN' / ARAL Iris feeding optics 5 (IN, HIERARCH ESO ISS ARAL MIRR25 NAME = 'OUT' / ARAL Iris feeding optics A1 (FR HIERARCH ESO ISS ARAL MIRR26 NAME = 'OUT' / ARAL Iris feeding optics A2 (FR HIERARCH ESO ISS AT1 ALT ENC END = 0.611819 / ATi alt encoder expo end. HIERARCH ESO ISS AT1 ALT ENC START = 0.607974 / ATi alt encoder expo start. HIERARCH ESO ISS AT1 ALT TIME END = 60614.2063657 / Timestamp ISS.ATi.ALT.ENC.EN HIERARCH ESO ISS AT1 ALT TIME START = 60614.2056597 / Timestamp ISS.ATi.ALT.ENC. HIERARCH ESO ISS AT1 AZ ENC END = 1.273648 / ATi az encoder expo end. HIERARCH ESO ISS AT1 AZ ENC START = 1.272668 / ATi az encoder expo start. HIERARCH ESO ISS AT1 AZ TIME END = 60614.2063657 / Timestamp ISS.ATi.AZ.ENC.END. HIERARCH ESO ISS AT1 AZ TIME START = 60614.2056597 / Timestamp ISS.ATi.AZ.ENC.ST HIERARCH ESO ISS AT1 NAOMI FWPOS = 'CLEAR' / FW Position ATi . HIERARCH ESO ISS AT1 NAOMI RTCGAIN = -0.400000 / RTC Gain ATi []. HIERARCH ESO ISS AT1 NAOMI RTCMODE = 14 / RTC Mode ATi. HIERARCH ESO ISS AT1 NAOMI WFSFLUX END = 36265.253013 / WFS Flux ATi [ph/msec]. HIERARCH ESO ISS AT1 NAOMI WFSFLUX START = 36722.900667 / WFS Flux ATi [ph/msec] HIERARCH ESO ISS AT1 NAOMI WFSFREQ = 0 / WFS Frequency ATi [Hz]. HIERARCH ESO ISS AT1 NAOMI WFSGAIN = 1 / WFS Gain ATi []. HIERARCH ESO ISS AT1 NAOMI WFSGEOM = '6x6' / WFS Geometry [6x6 or ACQ]. HIERARCH ESO ISS AT1 NAOMI WFSRMS END = 0.115416 / WFS rms ATi [um]. HIERARCH ESO ISS AT1 NAOMI WFSRMS START = 0.113168 / WFS rms ATi [um]. HIERARCH ESO ISS AT1 NAOMI WFSSPOTSZ END = 2.086344 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT1 NAOMI WFSSPOTSZ START = 2.110757 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT2 ALT ENC END = 0.615095 / ATi alt encoder expo end. HIERARCH ESO ISS AT2 ALT ENC START = 0.611251 / ATi alt encoder expo start. HIERARCH ESO ISS AT2 ALT TIME END = 60614.2063657 / Timestamp ISS.ATi.ALT.ENC.EN HIERARCH ESO ISS AT2 ALT TIME START = 60614.2056597 / Timestamp ISS.ATi.ALT.ENC. HIERARCH ESO ISS AT2 AZ ENC END = 1.265803 / ATi az encoder expo end. HIERARCH ESO ISS AT2 AZ ENC START = 1.264825 / ATi az encoder expo start. HIERARCH ESO ISS AT2 AZ TIME END = 60614.2063657 / Timestamp ISS.ATi.AZ.ENC.END. HIERARCH ESO ISS AT2 AZ TIME START = 60614.2056597 / Timestamp ISS.ATi.AZ.ENC.ST HIERARCH ESO ISS AT2 NAOMI FWPOS = 'CLEAR' / FW Position ATi . HIERARCH ESO ISS AT2 NAOMI RTCGAIN = -0.400000 / RTC Gain ATi []. HIERARCH ESO ISS AT2 NAOMI RTCMODE = 14 / RTC Mode ATi. HIERARCH ESO ISS AT2 NAOMI WFSFLUX END = 31379.301266 / WFS Flux ATi [ph/msec]. HIERARCH ESO ISS AT2 NAOMI WFSFLUX START = 32735.407832 / WFS Flux ATi [ph/msec] HIERARCH ESO ISS AT2 NAOMI WFSFREQ = 0 / WFS Frequency ATi [Hz]. HIERARCH ESO ISS AT2 NAOMI WFSGAIN = 1 / WFS Gain ATi []. HIERARCH ESO ISS AT2 NAOMI WFSGEOM = '6x6' / WFS Geometry [6x6 or ACQ]. HIERARCH ESO ISS AT2 NAOMI WFSRMS END = 0.101483 / WFS rms ATi [um]. HIERARCH ESO ISS AT2 NAOMI WFSRMS START = 0.087705 / WFS rms ATi [um]. HIERARCH ESO ISS AT2 NAOMI WFSSPOTSZ END = 2.160490 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT2 NAOMI WFSSPOTSZ START = 2.097914 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT3 ALT ENC END = 0.612605 / ATi alt encoder expo end. HIERARCH ESO ISS AT3 ALT ENC START = 0.608824 / ATi alt encoder expo start. HIERARCH ESO ISS AT3 ALT TIME END = 60614.2063542 / Timestamp ISS.ATi.ALT.ENC.EN HIERARCH ESO ISS AT3 ALT TIME START = 60614.2056597 / Timestamp ISS.ATi.ALT.ENC. HIERARCH ESO ISS AT3 AZ ENC END = 1.239600 / ATi az encoder expo end. HIERARCH ESO ISS AT3 AZ ENC START = 1.238637 / ATi az encoder expo start. HIERARCH ESO ISS AT3 AZ TIME END = 60614.2063542 / Timestamp ISS.ATi.AZ.ENC.END. HIERARCH ESO ISS AT3 AZ TIME START = 60614.2056597 / Timestamp ISS.ATi.AZ.ENC.ST HIERARCH ESO ISS AT3 NAOMI FWPOS = 'CLEAR' / FW Position ATi . HIERARCH ESO ISS AT3 NAOMI RTCGAIN = -0.400000 / RTC Gain ATi []. HIERARCH ESO ISS AT3 NAOMI RTCMODE = 14 / RTC Mode ATi. HIERARCH ESO ISS AT3 NAOMI WFSFLUX END = 25961.323184 / WFS Flux ATi [ph/msec]. HIERARCH ESO ISS AT3 NAOMI WFSFLUX START = 25656.241906 / WFS Flux ATi [ph/msec] HIERARCH ESO ISS AT3 NAOMI WFSFREQ = 0 / WFS Frequency ATi [Hz]. HIERARCH ESO ISS AT3 NAOMI WFSGAIN = 1 / WFS Gain ATi []. HIERARCH ESO ISS AT3 NAOMI WFSGEOM = '6x6' / WFS Geometry [6x6 or ACQ]. HIERARCH ESO ISS AT3 NAOMI WFSRMS END = 0.123372 / WFS rms ATi [um]. HIERARCH ESO ISS AT3 NAOMI WFSRMS START = 0.107777 / WFS rms ATi [um]. HIERARCH ESO ISS AT3 NAOMI WFSSPOTSZ END = 2.321190 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT3 NAOMI WFSSPOTSZ START = 2.288283 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT4 ALT ENC END = 0.611095 / ATi alt encoder expo end. HIERARCH ESO ISS AT4 ALT ENC START = 0.607314 / ATi alt encoder expo start. HIERARCH ESO ISS AT4 ALT TIME END = 60614.2063657 / Timestamp ISS.ATi.ALT.ENC.EN HIERARCH ESO ISS AT4 ALT TIME START = 60614.2056713 / Timestamp ISS.ATi.ALT.ENC. HIERARCH ESO ISS AT4 AZ ENC END = 1.284427 / ATi az encoder expo end. HIERARCH ESO ISS AT4 AZ ENC START = 1.283462 / ATi az encoder expo start. HIERARCH ESO ISS AT4 AZ TIME END = 60614.2063542 / Timestamp ISS.ATi.AZ.ENC.END. HIERARCH ESO ISS AT4 AZ TIME START = 60614.2056597 / Timestamp ISS.ATi.AZ.ENC.ST HIERARCH ESO ISS AT4 NAOMI FWPOS = 'CLEAR' / FW Position ATi . HIERARCH ESO ISS AT4 NAOMI RTCGAIN = -0.400000 / RTC Gain ATi []. HIERARCH ESO ISS AT4 NAOMI RTCMODE = 14 / RTC Mode ATi. HIERARCH ESO ISS AT4 NAOMI WFSFLUX END = 29817.358308 / WFS Flux ATi [ph/msec]. HIERARCH ESO ISS AT4 NAOMI WFSFLUX START = 28291.385714 / WFS Flux ATi [ph/msec] HIERARCH ESO ISS AT4 NAOMI WFSFREQ = 0 / WFS Frequency ATi [Hz]. HIERARCH ESO ISS AT4 NAOMI WFSGAIN = 1 / WFS Gain ATi []. HIERARCH ESO ISS AT4 NAOMI WFSGEOM = '6x6' / WFS Geometry [6x6 or ACQ]. HIERARCH ESO ISS AT4 NAOMI WFSRMS END = 0.103710 / WFS rms ATi [um]. HIERARCH ESO ISS AT4 NAOMI WFSRMS START = 0.108055 / WFS rms ATi [um]. HIERARCH ESO ISS AT4 NAOMI WFSSPOTSZ END = 2.129347 / WFS Spot size ATi [px]. HIERARCH ESO ISS AT4 NAOMI WFSSPOTSZ START = 2.150410 / WFS Spot size ATi [px]. HIERARCH ESO ISS AZ = 288.019 / Azimuth angles at start [deg]. HIERARCH ESO ISS BASELINE = 'UTs' / Interferometric Array. HIERARCH ESO ISS CHOP ST = 'F' / Chopping status. HIERARCH ESO ISS CONF A1L = 147.617299 / Static optical path length [m] arm 1. HIERARCH ESO ISS CONF A2L = 163.346271 / Static optical path length [m] arm 2. HIERARCH ESO ISS CONF A3L = 115.105000 / Static optical path length [m] arm 3. HIERARCH ESO ISS CONF A4L = 146.867684 / Static optical path length [m] arm 4. HIERARCH ESO ISS CONF DL1 = 'DL6' / Delay line used in arm 1. HIERARCH ESO ISS CONF DL2 = 'DL5' / Delay line used in arm 2. HIERARCH ESO ISS CONF DL3 = 'DL1' / Delay line used in arm 3 . HIERARCH ESO ISS CONF DL4 = 'DL2' / Delay line used in arm 4. HIERARCH ESO ISS CONF INPUT1 = 1 / Primary lab input channel arm 1. HIERARCH ESO ISS CONF INPUT2 = 3 / Primary lab input channel arm 2. HIERARCH ESO ISS CONF INPUT3 = 5 / Primary lab input channel arm 3. HIERARCH ESO ISS CONF INPUT4 = 7 / Primary switchyard config. arm 4. HIERARCH ESO ISS CONF NTEL = 4 / Number of telescopes used. HIERARCH ESO ISS CONF STATION1 = 'A0' / Station of telescope arm 1. HIERARCH ESO ISS CONF STATION2 = 'B2' / Station of telescope arm 2. HIERARCH ESO ISS CONF STATION3 = 'D0' / Station of telescope arm 3. HIERARCH ESO ISS CONF STATION4 = 'C1' / Station of telescope arm 4. HIERARCH ESO ISS CONF SWYARD1 = 'compressed' / Primary switchyard config. arm 1. HIERARCH ESO ISS CONF SWYARD2 = 'compressed' / Primary switchyard config. arm 2. HIERARCH ESO ISS CONF SWYARD3 = 'compressed' / Primary switchyard config. arm 3. HIERARCH ESO ISS CONF SWYARD4 = 'compressed' / Primary switchyard config. arm 4. HIERARCH ESO ISS CONF T1NAME = 'AT1' / Telescope name arm 1. HIERARCH ESO ISS CONF T1X = 14.638252 / Telescope X coordinate [m] arm 1. HIERARCH ESO ISS CONF T1Y = 55.799546 / Telescope Y coordinate [m] arm 1. HIERARCH ESO ISS CONF T1Z = 4.532355 / Telescope Z coordinate [m] arm 1. HIERARCH ESO ISS CONF T2NAME = 'AT2' / Telescope name arm 2. HIERARCH ESO ISS CONF T2X = -0.737361 / Telescope X coordinate [m] arm 2. HIERARCH ESO ISS CONF T2Y = 75.889810 / Telescope Y coordinate [m] arm 2. HIERARCH ESO ISS CONF T2Z = 4.538036 / Telescope Z coordinate [m] arm 2. HIERARCH ESO ISS CONF T3NAME = 'AT3' / Telescope name arm 3. HIERARCH ESO ISS CONF T3X = -15.627957 / Telescope X coordinate [m] arm 3. HIERARCH ESO ISS CONF T3Y = 45.397348 / Telescope Y coordinate [m] arm 3. HIERARCH ESO ISS CONF T3Z = 4.539700 / Telescope Z coordinate [m] arm 3. HIERARCH ESO ISS CONF T4NAME = 'AT4' / Telescope name arm 4. HIERARCH ESO ISS CONF T4X = -5.690030 / Telescope X coordinate [m] arm 4. HIERARCH ESO ISS CONF T4Y = 65.728849 / Telescope Y coordinate [m] arm 4. HIERARCH ESO ISS CONF T4Z = 4.538925 / Telescope Z coordinate [m] arm 4. HIERARCH ESO ISS DATE = '2024-10-11T13:12:15.000' / Timestamp of last ISS build. HIERARCH ESO ISS DID = 'ESO-VLT-DIC.ISS' / Data dictionary name. HIERARCH ESO ISS FEED MODE = 'SINGLE_STS' / VLTI feed mode (TRANSPARENT,SINGLE_S HIERARCH ESO ISS GEOELEV = 2669.0 / VLTI ground site height above WGS84 [m]. HIERARCH ESO ISS GEOLAT = -24.62743941 / VLTI site latitude (UV zero) [deg]. HIERARCH ESO ISS GEOLON = -70.40498688 / VLTI site longitude (UV zero) [deg]. HIERARCH ESO ISS IAS IRIS DIT = 0.005 / IRIS Detector Integration Time [s]. HIERARCH ESO ISS IAS IRIS_ERRSTDFLUX1 = 10151.893 / Std deviation Flux (ADU). HIERARCH ESO ISS IAS IRIS_ERRSTDFLUX2 = 10739.086 / Std deviation Flux (ADU). HIERARCH ESO ISS IAS IRIS_ERRSTDFLUX3 = 13906.544 / Std deviation Flux (ADU). HIERARCH ESO ISS IAS IRIS_ERRSTDFLUX4 = 11429.522 / Std deviation Flux (ADU). HIERARCH ESO ISS IAS IRIS_ERRSTDX1 = 0.218 / Std deviation X. HIERARCH ESO ISS IAS IRIS_ERRSTDX2 = 0.240 / Std deviation X. HIERARCH ESO ISS IAS IRIS_ERRSTDX3 = 0.286 / Std deviation X. HIERARCH ESO ISS IAS IRIS_ERRSTDX4 = 0.255 / Std deviation X. HIERARCH ESO ISS IAS IRIS_ERRSTDY1 = 0.183 / Std deviation Y. HIERARCH ESO ISS IAS IRIS_ERRSTDY2 = 0.218 / Std deviation Y. HIERARCH ESO ISS IAS IRIS_ERRSTDY3 = 0.246 / Std deviation Y. HIERARCH ESO ISS IAS IRIS_ERRSTDY4 = 0.242 / Std deviation Y. HIERARCH ESO ISS IAS IRIS_GUID = 'ON' / IRIS labguiding state (ON, OFF). HIERARCH ESO ISS IAS MIRR9 NAME = 'OUT' / ARAL IAS ALI slide position for T HIERARCH ESO ISS IAS OPTI10 NAME = 'TTS' / ARAL Iris Fly Eye and Telephoto HIERARCH ESO ISS IAS OPTI9 NAME = 'OUT' / ARAL Iris notch filter setting (I HIERARCH ESO ISS IAS SELECTED = 'IRIS' / Selected image alignment sensor (NO HIERARCH ESO ISS ID = 'v ISS' / ISS version string. HIERARCH ESO ISS IP1 IMAGEROT END = 270.149185 / Image rotation in lab for IP1 a HIERARCH ESO ISS IP1 IMAGEROT START = 270.149185 / Image rotation in lab for IP1 HIERARCH ESO ISS IP1 PUPILROT END = 11.889895 / Pupil rotation in lab for IP1 at HIERARCH ESO ISS IP1 PUPILROT START = 11.978626 / Pupil rotation in lab for IP1 HIERARCH ESO ISS IP3 IMAGEROT END = 270.149185 / Image rotation in lab for IP3 a HIERARCH ESO ISS IP3 IMAGEROT START = 270.149185 / Image rotation in lab for IP3 HIERARCH ESO ISS IP3 PUPILROT END = 11.891725 / Pupil rotation in lab for IP3 at HIERARCH ESO ISS IP3 PUPILROT START = 11.977587 / Pupil rotation in lab for IP3 HIERARCH ESO ISS IP5 IMAGEROT END = 270.149185 / Image rotation in lab for IP5 a HIERARCH ESO ISS IP5 IMAGEROT START = 270.149185 / Image rotation in lab for IP5 HIERARCH ESO ISS IP5 PUPILROT END = 11.891393 / Pupil rotation in lab for IP5 at HIERARCH ESO ISS IP5 PUPILROT START = 11.977255 / Pupil rotation in lab for IP5 HIERARCH ESO ISS IP7 IMAGEROT END = 270.149185 / Image rotation in lab for IP7 a HIERARCH ESO ISS IP7 IMAGEROT START = 270.149185 / Image rotation in lab for IP7 HIERARCH ESO ISS IP7 PUPILROT END = 11.889306 / Pupil rotation in lab for IP7 at HIERARCH ESO ISS IP7 PUPILROT START = 11.977993 / Pupil rotation in lab for IP7 HIERARCH ESO ISS M2POSZ AT1 = 0.017389 / Z position for M2 mirror of ATi [mm]. HIERARCH ESO ISS M2POSZ AT2 = -0.180618 / Z position for M2 mirror of ATi [mm]. HIERARCH ESO ISS M2POSZ AT3 = 0.119234 / Z position for M2 mirror of ATi [mm]. HIERARCH ESO ISS M2POSZ AT4 = 0.106569 / Z position for M2 mirror of ATi [mm]. HIERARCH ESO ISS MARCEL OPTI1 NAME = 'OUT' / ARAL MARCEL beam splitter A (O HIERARCH ESO ISS MARCEL OPTI2 NAME = 'OUT' / ARAL MARCEL beam splitter B (O HIERARCH ESO ISS MARCEL OPTI3 NAME = 'OUT' / ARAL MARCEL beam splitter C (O HIERARCH ESO ISS MARCEL OPTI4 NAME = 'OUT' / ARAL MARCEL beam splitter D (O HIERARCH ESO ISS MARCEL OPTI5 NAME = 'OUT' / ARAL MARCEL beam splitter E (O HIERARCH ESO ISS MARCEL OPTI6 NAME = 'OUT' / ARAL MARCEL beam splitter F (O HIERARCH ESO ISS MARCEL OPTI7 NAME = 'OUT' / ARAL MARCEL beam splitter G (O HIERARCH ESO ISS MARCEL OPTI8 NAME = 'OUT' / ARAL MARCEL beam splitter H (O HIERARCH ESO ISS OPER = 'I I Condor' / Name of VLTI operator. HIERARCH ESO ISS PARANG END = -101.741 / Parallactic angle at end [deg]. HIERARCH ESO ISS PARANG START = -101.829 / Parallactic angle at start [deg]. HIERARCH ESO ISS PBL12 END = 18.707 / Projected baseline T1 T2 at end [m]. HIERARCH ESO ISS PBL12 START = 18.654 / Projected baseline T1 T2 at start [m]. HIERARCH ESO ISS PBL13 END = 24.215 / Projected baseline T1 T3 at end [m]. HIERARCH ESO ISS PBL13 START = 24.179 / Projected baseline T1 T3 at start [m]. HIERARCH ESO ISS PBL14 END = 13.271 / Projected baseline T1 T4 at end [m]. HIERARCH ESO ISS PBL14 START = 13.199 / Projected baseline T1 T4 at start [m]. HIERARCH ESO ISS PBL23 END = 33.710 / Projected baseline T2 T3 at end [m]. HIERARCH ESO ISS PBL23 START = 33.712 / Projected baseline T2 T3 at start [m]. HIERARCH ESO ISS PBL24 END = 11.230 / Projected baseline T2 T4 at end [m]. HIERARCH ESO ISS PBL24 START = 11.230 / Projected baseline T2 T4 at start [m]. HIERARCH ESO ISS PBL34 END = 22.480 / Projected baseline T3 T4 at end [m]. HIERARCH ESO ISS PBL34 START = 22.481 / Projected baseline T3 T4 at start [m]. HIERARCH ESO ISS PBLA12 END = 128.5 / Projected baseline orientation angle T1 T2 HIERARCH ESO ISS PBLA12 START = 128.5 / Projected baseline orientation angle T1 HIERARCH ESO ISS PBLA13 END = 25.7 / Projected baseline orientation angle T1 T3 HIERARCH ESO ISS PBLA13 START = 25.4 / Projected baseline orientation angle T1 T HIERARCH ESO ISS PBLA14 END = 92.110 / Projected baseline orientation angle T1 T HIERARCH ESO ISS PBLA14 START = 92.002 / Projected baseline orientation angle T1 HIERARCH ESO ISS PBLA23 END = 352.9 / Projected baseline orientation angle T2 T3 HIERARCH ESO ISS PBLA23 START = 352.8 / Projected baseline orientation angle T2 HIERARCH ESO ISS PBLA24 END = 352.892 / Projected baseline orientation angle T2 HIERARCH ESO ISS PBLA24 START = 352.747 / Projected baseline orientation angle T HIERARCH ESO ISS PBLA34 END = 172.929 / Projected baseline orientation angle T3 HIERARCH ESO ISS PBLA34 START = 172.784 / Projected baseline orientation angle T HIERARCH ESO ISS REF DEC = -275605.39 / Reference Delta as given by user. HIERARCH ESO ISS REF RA = 70143.15 / Reference Alpha as given by user. HIERARCH ESO ISS TEMP LAB1 = 15.060 / Temp in lab. HIERARCH ESO ISS TEMP TUN1 = 15.790 / Temp in tunnel west [C], duct A. HIERARCH ESO ISS TEMP TUN2 = 16.100 / Temp in tunnel centre [C], M16 west. HIERARCH ESO ISS TEMP TUN3 = 15.710 / Temp in tunnel centre [C], M16 east. HIERARCH ESO ISS TEMP TUN4 = 16.760 / Temp in tunnel east [C], duct L. HIERARCH ESO ISS TRAK STATUS = 'NORMAL' / Tracking status. HIERARCH ESO ISS VLTITYPE = 'snapshot' / Type of interferometric observations. HIERARCH ESO OBS AIRM = 2.0 / Req. max. airmass HIERARCH ESO OBS AMBI TRANS = '3THN' / Req. sky transparency HIERARCH ESO OBS AOMODE = 'FULL_AO' / Req. AO mode HIERARCH ESO OBS CONTAINER ID = 4059226 / Scheduling container ID HIERARCH ESO OBS CONTAINER PARENT ID = 4059222 / Scheduling parent container ID HIERARCH ESO OBS CONTAINER PARENT TYPE = 'G' / Scheduling parent containe HIERARCH ESO OBS CONTAINER TYPE = 'C' / Scheduling container type HIERARCH ESO OBS DID = 'ESO-VLT-DIC.OBS-2.2' / OBS Dictionary HIERARCH ESO OBS EXECTIME = 1800 / Expected execution time HIERARCH ESO OBS GRP = '0' / linked blocks HIERARCH ESO OBS ID = 4059228 / Observation block ID HIERARCH ESO OBS MOON DIST = 3 / Req. min. angular dist. from moon [deg] HIERARCH ESO OBS MOON FLI = 1.0 / Req. max. fractional lunar illum. HIERARCH ESO OBS NAME = 'SCI_sigCMa' / OB name HIERARCH ESO OBS NTPL = 2 / Number of templates within OB HIERARCH ESO OBS OBSERVER = 'UNKNOWN' / Observer Name HIERARCH ESO OBS PI-COI ID = 12266 / ESO internal PI-COI ID HIERARCH ESO OBS PI-COI NAME = 'UNKNOWN' / PI-COI name HIERARCH ESO OBS PROG ID = '114.275E.005' / ESO program identification HIERARCH ESO OBS START = '2024-10-31T04:46:44' / OB start time HIERARCH ESO OBS TARG NAME = 'sig CMa' / OB target name HIERARCH ESO OBS TPLNO = 2 / Template number within OB HIERARCH ESO OBS TURB = '70%' / Req. Atmospheric Turbulence Category HIERARCH ESO OBS WATERVAPOUR = 30.0 / Req. water vapour HIERARCH ESO OCS DET1 IMGNAME = 'MATISSE_OBS_SIPHOT_LM_OBJECT_' / Data File Name HIERARCH ESO SEQ DIL WL0 = 3.5000 / [um] Central wavelength of LM-band spectra HIERARCH ESO SEQ OFFSET ALPHA = 0.0 / [mas] Off-axis total offset in RA HIERARCH ESO SEQ OFFSET DELTA = 0.0 / [mas] Off-axis total offset in DEC HIERARCH ESO SEQ TARG FLUX L = 380.0 / [Jy] L band flux in jansky HIERARCH ESO SEQ TARG FLUX N = 56.0 / [Jy] N band flux in jansky HIERARCH ESO SEQ TARG MAG K = -0.4 / [mag] K band magnitude HIERARCH ESO TPL DID = 'ESO-VLT-DIC.TPL-1.9' / Data dictionary for TPL HIERARCH ESO TPL EXPNO = 15 / Exposure number within template HIERARCH ESO TPL ID = 'MATISSE_hyb_obs' / Template signature ID HIERARCH ESO TPL NAME = 'Celestial target observation' / Template name HIERARCH ESO TPL NEXP = 40 / Number of exposures within template HIERARCH ESO TPL PRESEQ = 'MATISSE_obs.seq' / Sequencer script HIERARCH ESO TPL START = '2024-10-31T04:48:45' / TPL start time HIERARCH ESO TPL VERSION = '$Revision: 332467 $' / Version of the template ORIGFILE= 'MATISSE_OBS_SIPHOT_LM_OBJECT_305_0004.fits' / Original File Name ARCFILE = 'MATIS.2024-10-31T04:56:10.771.fits' / Archive File Name CHECKSUM= 'ZiHNeZ9MZfEMdZ9M' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '0' / data unit checksum updated 2024-10-31T04:57:13 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / # of bits per pix value NAXIS = 2 / # of axes in data array NAXIS1 = 334 / # width of table in bytes NAXIS2 = 21 / # number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 14 / number of fields in each row EXTNAME = 'IMAGING_DETECTOR' / name of this binary table extension ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:56:10.7713' / Date the file was written INSTRUME= 'MATISSE' / Instrument name MJD-OBS = 60614.20568022 / 2024-10-31T04:56:10.7713 DATE-OBS= '2024-10-31T04:56:10.7713' / Observing date HIERARCH ESO DET DID = 'ESO-VLT-DIC.NGCDCS-323264' / Data dictionary nam HIERARCH ESO DET ID = 'MATISSE-H2RG' / Detector system id MAXTEL = 4 / Maximum number of telescopes (PORTS) MAX_COEF= 9 / Max coefficents in DMP and DMC NDETECT = 1 / Number of detectors NREGION = 21 / Number of regions NUM_DIM = 2 / Dimensions in the detector array TDIM12 = '(2,2)' / size of the multidimensional array TDIM13 = '(2,2,9)' / size of the multidimensional array TDIM14 = '(2,9)' / size of the multidimensional array TFORM1 = 'I' / data format of field: 2-byte INTEGER TFORM10 = '2E' / data format of field: 4-byte REAL TFORM11 = '16A' / data format of field: ASCII Character TFORM12 = '4D' / data format of field: 8-byte DOUBLE TFORM13 = '36I' / data format of field: 2-byte INTEGER TFORM14 = '18D' / data format of field: 8-byte DOUBLE TFORM2 = 'I' / data format of field: 2-byte INTEGER TFORM3 = '4I' / data format of field: 2-byte INTEGER TFORM4 = 'I' / data format of field: 2-byte INTEGER TFORM5 = '16A' / data format of field: ASCII Character TFORM6 = '2I' / data format of field: 2-byte INTEGER TFORM7 = 'D' / data format of field: 8-byte DOUBLE TFORM8 = '2I' / data format of field: 2-byte INTEGER TFORM9 = '2D' / data format of field: 8-byte DOUBLE TTYPE1 = 'REGION' / label for field 1 TTYPE10 = 'CRPIX' / label for field 10 TTYPE11 = 'CTYPE' / label for field 11 TTYPE12 = 'CD' / label for field 12 TTYPE13 = 'DMP' / label for field 13 TTYPE14 = 'DMC' / label for field 14 TTYPE2 = 'DETECTOR' / label for field 2 TTYPE3 = 'PORTS' / label for field 3 TTYPE4 = 'CORRELATION' / label for field 4 TTYPE5 = 'REGNAME' / label for field 5 TTYPE6 = 'CORNER' / label for field 6 TTYPE7 = 'GAIN' / label for field 7 TTYPE8 = 'NAXIS' / label for field 8 TTYPE9 = 'CRVAL' / label for field 9 CHECKSUM= 'll4Nmk4Klk4Klk4K' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '3108592888' / data unit checksum updated 2024-10-31T04:57:13 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / # of bits per pix value NAXIS = 2 / # of axes in data array NAXIS1 = 201231 / # width of table in bytes NAXIS2 = 385 / # number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 33 / number of fields in each row EXTNAME = 'IMAGING_DATA' / name of this binary table extension ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:56:10.7713' / Date the file was written INSTRUME= 'MATISSE' / Instrument name MJD-OBS = 60614.20568022 / 2024-10-31T04:56:10.7713 DATE-OBS= '2024-10-31T04:56:10.7713' / Observing date HIERARCH ESO DET DID = 'ESO-VLT-DIC.NGCDCS-323264' / Data dictionary nam HIERARCH ESO DET ID = 'MATISSE-H2RG' / Detector system id MAXINS = 0 / Number of INS_TRAIN table entries MAXSTEP = 10 / Number of OPD steps MAXTEL = 4 / Maximum number of telescopes (PORTS) NREGION = 21 / Number of regions TDIM10 = '(150,64)' / size of the multidimensional array TDIM11 = '(150,64)' / size of the multidimensional array TDIM12 = '(625,64)' / size of the multidimensional array TDIM13 = '(150,64)' / size of the multidimensional array TDIM14 = '(150,64)' / size of the multidimensional array TDIM15 = '(16,64)' / size of the multidimensional array TDIM16 = '(16,8)' / size of the multidimensional array TDIM17 = '(150,8)' / size of the multidimensional array TDIM18 = '(150,8)' / size of the multidimensional array TDIM19 = '(625,8)' / size of the multidimensional array TDIM2 = '(16,8)' / size of the multidimensional array TDIM20 = '(150,8)' / size of the multidimensional array TDIM21 = '(150,8)' / size of the multidimensional array TDIM22 = '(16,8)' / size of the multidimensional array TDIM3 = '(150,8)' / size of the multidimensional array TDIM4 = '(150,8)' / size of the multidimensional array TDIM5 = '(625,8)' / size of the multidimensional array TDIM6 = '(150,8)' / size of the multidimensional array TDIM7 = '(150,8)' / size of the multidimensional array TDIM8 = '(16,8)' / size of the multidimensional array TDIM9 = '(16,64)' / size of the multidimensional array TFORM1 = 'D' / data format of field: 8-byte DOUBLE TFORM10 = '9600I' / data format of field: 2-byte INTEGER TFORM11 = '9600I' / data format of field: 2-byte INTEGER TFORM12 = '40000I' / data format of field: 2-byte INTEGER TFORM13 = '9600I' / data format of field: 2-byte INTEGER TFORM14 = '9600I' / data format of field: 2-byte INTEGER TFORM15 = '1024I' / data format of field: 2-byte INTEGER TFORM16 = '128I' / data format of field: 2-byte INTEGER TFORM17 = '1200I' / data format of field: 2-byte INTEGER TFORM18 = '1200I' / data format of field: 2-byte INTEGER TFORM19 = '5000I' / data format of field: 2-byte INTEGER TFORM2 = '128I' / data format of field: 2-byte INTEGER TFORM20 = '1200I' / data format of field: 2-byte INTEGER TFORM21 = '1200I' / data format of field: 2-byte INTEGER TFORM22 = '128I' / data format of field: 2-byte INTEGER TFORM23 = 'E' / data format of field: 4-byte REAL TFORM24 = '4I' / data format of field: 2-byte INTEGER TFORM25 = '4D' / data format of field: 8-byte DOUBLE TFORM26 = '4D' / data format of field: 8-byte DOUBLE TFORM27 = '4I' / data format of field: 2-byte INTEGER TFORM28 = '2E' / data format of field: 4-byte REAL TFORM29 = 'E' / data format of field: 4-byte REAL TFORM3 = '1200I' / data format of field: 2-byte INTEGER TFORM30 = 'I' / data format of field: 2-byte INTEGER TFORM31 = '1A' / data format of field: ASCII Character TFORM32 = 'I' / data format of field: 2-byte INTEGER TFORM33 = 'I' / data format of field: 2-byte INTEGER TFORM4 = '1200I' / data format of field: 2-byte INTEGER TFORM5 = '5000I' / data format of field: 2-byte INTEGER TFORM6 = '1200I' / data format of field: 2-byte INTEGER TFORM7 = '1200I' / data format of field: 2-byte INTEGER TFORM8 = '128I' / data format of field: 2-byte INTEGER TFORM9 = '1024I' / data format of field: 2-byte INTEGER TSCAL10 = 1 / pixel=FITS*TSCAL+TZERO TSCAL11 = 1 / pixel=FITS*TSCAL+TZERO TSCAL12 = 1 / pixel=FITS*TSCAL+TZERO TSCAL13 = 1 / pixel=FITS*TSCAL+TZERO TSCAL14 = 1 / pixel=FITS*TSCAL+TZERO TSCAL15 = 1 / pixel=FITS*TSCAL+TZERO TSCAL16 = 1 / pixel=FITS*TSCAL+TZERO TSCAL17 = 1 / pixel=FITS*TSCAL+TZERO TSCAL18 = 1 / pixel=FITS*TSCAL+TZERO TSCAL19 = 1 / pixel=FITS*TSCAL+TZERO TSCAL2 = 1 / pixel=FITS*TSCAL+TZERO TSCAL20 = 1 / pixel=FITS*TSCAL+TZERO TSCAL21 = 1 / pixel=FITS*TSCAL+TZERO TSCAL22 = 1 / pixel=FITS*TSCAL+TZERO TSCAL3 = 1 / pixel=FITS*TSCAL+TZERO TSCAL4 = 1 / pixel=FITS*TSCAL+TZERO TSCAL5 = 1 / pixel=FITS*TSCAL+TZERO TSCAL6 = 1 / pixel=FITS*TSCAL+TZERO TSCAL7 = 1 / pixel=FITS*TSCAL+TZERO TSCAL8 = 1 / pixel=FITS*TSCAL+TZERO TSCAL9 = 1 / pixel=FITS*TSCAL+TZERO TTYPE1 = 'TIME' / label for field 1 TTYPE10 = 'DATA9' / label for field 10 TTYPE11 = 'DATA10' / label for field 11 TTYPE12 = 'DATA11' / label for field 12 TTYPE13 = 'DATA12' / label for field 13 TTYPE14 = 'DATA13' / label for field 14 TTYPE15 = 'DATA14' / label for field 15 TTYPE16 = 'DATA15' / label for field 16 TTYPE17 = 'DATA16' / label for field 17 TTYPE18 = 'DATA17' / label for field 18 TTYPE19 = 'DATA18' / label for field 19 TTYPE2 = 'DATA1' / label for field 2 TTYPE20 = 'DATA19' / label for field 20 TTYPE21 = 'DATA20' / label for field 21 TTYPE22 = 'DATA21' / label for field 22 TTYPE23 = 'EXPTIME' / label for field 23 TTYPE24 = 'OPT_TRAIN' / label for field 24 TTYPE25 = 'OPD' / label for field 25 TTYPE26 = 'LOCALOPD' / label for field 26 TTYPE27 = 'INS_TRAIN' / label for field 27 TTYPE28 = 'OFFSET' / label for field 28 TTYPE29 = 'ROTATION' / label for field 29 TTYPE3 = 'DATA2' / label for field 3 TTYPE30 = 'STEPPING_PHASE' / label for field 30 TTYPE31 = 'TARTYP' / label for field 31 TTYPE32 = 'REFERENCE' / label for field 32 TTYPE33 = 'TARGET' / label for field 33 TTYPE4 = 'DATA3' / label for field 4 TTYPE5 = 'DATA4' / label for field 5 TTYPE6 = 'DATA5' / label for field 6 TTYPE7 = 'DATA6' / label for field 7 TTYPE8 = 'DATA7' / label for field 8 TTYPE9 = 'DATA8' / label for field 9 TZERO10 = 32768 / pixel=FITS*TSCAL+TZERO TZERO11 = 32768 / pixel=FITS*TSCAL+TZERO TZERO12 = 32768 / pixel=FITS*TSCAL+TZERO TZERO13 = 32768 / pixel=FITS*TSCAL+TZERO TZERO14 = 32768 / pixel=FITS*TSCAL+TZERO TZERO15 = 32768 / pixel=FITS*TSCAL+TZERO TZERO16 = 32768 / pixel=FITS*TSCAL+TZERO TZERO17 = 32768 / pixel=FITS*TSCAL+TZERO TZERO18 = 32768 / pixel=FITS*TSCAL+TZERO TZERO19 = 32768 / pixel=FITS*TSCAL+TZERO TZERO2 = 32768 / pixel=FITS*TSCAL+TZERO TZERO20 = 32768 / pixel=FITS*TSCAL+TZERO TZERO21 = 32768 / pixel=FITS*TSCAL+TZERO TZERO22 = 32768 / pixel=FITS*TSCAL+TZERO TZERO3 = 32768 / pixel=FITS*TSCAL+TZERO TZERO4 = 32768 / pixel=FITS*TSCAL+TZERO TZERO5 = 32768 / pixel=FITS*TSCAL+TZERO TZERO6 = 32768 / pixel=FITS*TSCAL+TZERO TZERO7 = 32768 / pixel=FITS*TSCAL+TZERO TZERO8 = 32768 / pixel=FITS*TSCAL+TZERO TZERO9 = 32768 / pixel=FITS*TSCAL+TZERO CHECKSUM= '0d2P1Z0P0b0P0Z0P' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '68443044' / data unit checksum updated 2024-10-31T04:57:13 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 322 / width of table in bytes NAXIS2 = 108 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 5 / number of fields in each row EXTNAME = 'ARRAY_DESCRIPTION' / FITS Extension name ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:57:11' / Date this file was written TELESCOP= 'ESO-VLTI-A1234' / ESO HIERARCH ESO ISS DID = 'ESO-VLT-DIC.ISS' / Auto Added Keyword HIERARCH ESO ISS ID = 'v ISS' / Auto Added Keyword TFORM1 = '32A' / data format of field: ASCII Character TFORM2 = '32A' / data format of field: ASCII Character TFORM3 = 'I' / data format of field: 2-byte INTEGER TFORM4 = '128A' / data format of field: ASCII Character TFORM5 = '128A' / data format of field: ASCII Character TTYPE1 = 'BINTABLE' / label for field 1 TTYPE2 = 'OPTI_NAME' / label for field 2 TTYPE3 = 'VALUE' / label for field 3 TTYPE4 = 'DESCRIPTION' / label for field 4 TTYPE5 = 'REFERENCE' / label for field 5 CHECKSUM= 'K56cK23aK23aK23a' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '2078546551' / data unit checksum updated 2024-10-31T04:57:13 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 48 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 6 / number of fields in each row EXTNAME = 'ARRAY_GEOMETRY' / FITS Extension name ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:57:11' / Date this file was written TELESCOP= 'ESO-VLTI-A1234' / ESO ARRAYX = 1946405 / VLTI x coordinate ARRAYY = -5467647 / VLTI y coordinate ARRAYZ = -2642729 / VLTI z coordinate ARRNAME = 'VLTI' / Array Name HIERARCH ESO ISS DID = 'ESO-VLT-DIC.ISS' / Auto Added Keyword HIERARCH ESO ISS ID = 'v ISS' / Auto Added Keyword FRAME = 'GEOCENTRIC' / Reference frame TFORM1 = '8A' / data format of field: ASCII Character TFORM2 = '8A' / data format of field: ASCII Character TFORM3 = 'I' / data format of field: 2-byte INTEGER TFORM4 = 'E' / data format of field: 4-byte REAL TFORM5 = '3D' / data format of field: 8-byte DOUBLE TFORM6 = 'I' / data format of field: 2-byte INTEGER TTYPE1 = 'TEL_NAME' / label for field 1 TTYPE2 = 'STA_NAME' / label for field 2 TTYPE3 = 'STA_INDEX' / label for field 3 TTYPE4 = 'DIAMETER' / label for field 4 TTYPE5 = 'STAXYZ' / label for field 5 TTYPE6 = 'MNTSTA' / label for field 6 TUNIT4 = 'm' / physical unit of field TUNIT5 = 'm' / physical unit of field CHECKSUM= 'ZeDUaZASUdASZZAS' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '1811249268' / data unit checksum updated 2024-10-31T04:57:13 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 486 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 30 / number of fields in each row EXTNAME = 'OPTICAL_TRAIN' / FITS Extension name ORIGIN = 'ESO-PARANAL' / European Southern Observatory DATE = '2024-10-31T04:57:11' / Date this file was written TELESCOP= 'ESO-VLTI-A1234' / ESO ARRNAME = 'VLTI' / Array Name HIERARCH ESO ISS DID = 'ESO-VLT-DIC.ISS' / Auto Added Keyword HIERARCH ESO ISS ID = 'v ISS' / Auto Added Keyword NOPTI = 14 / Number of optical elements TFORM1 = 'I' / data format of field: 2-byte INTEGER TFORM10 = 'I' / data format of field: 2-byte INTEGER TFORM11 = '32A' / data format of field: ASCII Character TFORM12 = 'I' / data format of field: 2-byte INTEGER TFORM13 = '32A' / data format of field: ASCII Character TFORM14 = 'I' / data format of field: 2-byte INTEGER TFORM15 = '32A' / data format of field: ASCII Character TFORM16 = 'I' / data format of field: 2-byte INTEGER TFORM17 = '32A' / data format of field: ASCII Character TFORM18 = 'I' / data format of field: 2-byte INTEGER TFORM19 = '32A' / data format of field: ASCII Character TFORM2 = '8A' / data format of field: ASCII Character TFORM20 = 'I' / data format of field: 2-byte INTEGER TFORM21 = '32A' / data format of field: ASCII Character TFORM22 = 'I' / data format of field: 2-byte INTEGER TFORM23 = '32A' / data format of field: ASCII Character TFORM24 = 'I' / data format of field: 2-byte INTEGER TFORM25 = '32A' / data format of field: ASCII Character TFORM26 = 'I' / data format of field: 2-byte INTEGER TFORM27 = '32A' / data format of field: ASCII Character TFORM28 = 'I' / data format of field: 2-byte INTEGER TFORM29 = '32A' / data format of field: ASCII Character TFORM3 = '32A' / data format of field: ASCII Character TFORM30 = 'I' / data format of field: 2-byte INTEGER TFORM4 = 'I' / data format of field: 2-byte INTEGER TFORM5 = '32A' / data format of field: ASCII Character TFORM6 = 'I' / data format of field: 2-byte INTEGER TFORM7 = '32A' / data format of field: ASCII Character TFORM8 = 'I' / data format of field: 2-byte INTEGER TFORM9 = '32A' / data format of field: ASCII Character TTYPE1 = 'INDEX' / label for field 1 TTYPE10 = 'VALUE4' / label for field 10 TTYPE11 = 'OPTI_NAME5' / label for field 11 TTYPE12 = 'VALUE5' / label for field 12 TTYPE13 = 'OPTI_NAME6' / label for field 13 TTYPE14 = 'VALUE6' / label for field 14 TTYPE15 = 'OPTI_NAME7' / label for field 15 TTYPE16 = 'VALUE7' / label for field 16 TTYPE17 = 'OPTI_NAME8' / label for field 17 TTYPE18 = 'VALUE8' / label for field 18 TTYPE19 = 'OPTI_NAME9' / label for field 19 TTYPE2 = 'TEL_NAME' / label for field 2 TTYPE20 = 'VALUE9' / label for field 20 TTYPE21 = 'OPTI_NAME10' / label for field 21 TTYPE22 = 'VALUE10' / label for field 22 TTYPE23 = 'OPTI_NAME11' / label for field 23 TTYPE24 = 'VALUE11' / label for field 24 TTYPE25 = 'OPTI_NAME12' / label for field 25 TTYPE26 = 'VALUE12' / label for field 26 TTYPE27 = 'OPTI_NAME13' / label for field 27 TTYPE28 = 'VALUE13' / label for field 28 TTYPE29 = 'OPTI_NAME14' / label for field 29 TTYPE3 = 'OPTI_NAME1' / label for field 3 TTYPE30 = 'VALUE14' / label for field 30 TTYPE4 = 'VALUE1' / label for field 4 TTYPE5 = 'OPTI_NAME2' / label for field 5 TTYPE6 = 'VALUE2' / label for field 6 TTYPE7 = 'OPTI_NAME3' / label for field 7 TTYPE8 = 'VALUE3' / label for field 8 TTYPE9 = 'OPTI_NAME4' / label for field 9 CHECKSUM= 'dSdleQZidQdidQZi' / HDU checksum updated 2024-10-31T04:57:13 DATASUM = '624910682' / data unit checksum updated 2024-10-31T04:57:13 END