ページ1に含まれる内容の要旨
Observer’s Guide for QUIRC
K.-W. Hodapp J.L. Hora M.R. Metzger
University of Hawaii
October 30, 1997����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
ページ2に含まれる内容の要旨
��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
ページ3に含まれる内容の要旨
October 30, 1997 1 1SystemOverview The University of Hawaii (UH) QUick Infrared Camera (QUIRC) utilizes a 1024 � 1024 pixel HgCdTe Astronomical Wide Area Infrared Imaging (HAWAII) array produced by Rockwell Science Center. This array is sensitive to radiation from 1 to 2.5 � m. The reimaging optics provide a 1:1 scale, giving the pixel scales listed in Table 1 for the various telescopes and configurations. Table 1. QUIRC pixel scales Telescope Optics arcsec/pixel FOV (arcsec) UH 88-inch f/10 0.18
ページ4に含まれる内容の要旨
2 QUIRC User Guide in cases where the background has been changing rapidly. It may also give better results if the dome flat was not evenly illuminated (it is difficult to achieve even illumination at the 0.6m telescope). The dark should be subtracted from the sky before division. The disadvantages of this technique are that the sky flat shows the response of the detector to the OH airglow + thermal emission. In particular, fringing may be present in certain configurations (e.g. 2.2m f/10 1:1), and
ページ5に含まれる内容の要旨
October 30, 1997 3 2.2 Dewar Temperature The dewar now has a temperature sensor and heater. For normal operation, the temperature controller should be used to set the detector temperature to 80.0K. If the controller is not used, drifts can occur as the telescope is moved, resulting in dark current instabilities in the array. The new array is not thought to be more sensitive to these effects than the previous detector, but some of the anomalies previously seen by observers with the original QUIRC
ページ6に含まれる内容の要旨
4 QUIRC User Guide 3.1 Workstation setup The program is run from a workstation in the control room, currentlyio (orhalley on the 88”). There is one configuration file thatqcdcom reads upon startup to determine the telescope, secondary, and other information. There are four preset configuration files currently used, located in the directory /aux/inst/qconf: tel_config_06_quirc tel_config_22_f10_quirc tel_config_22_f31_quirc tel_config_cfh_quirc These files are for the 0.6m, the 88” at f= 10, the 88” a
ページ7に含まれる内容の要旨
October 30, 1997 5 3.2 QCDCOM Setup and Operation The qcdcom program should be run from the directory where you want your data to be written, though this can be changed from within qcdcom using the cd command. So execute the following commands: % cd /scr/data (or wherever your data should go) % qcdcom When qcdcom is started, it initializes communications with the parallel interface, allocate memory into which to read IR array images, and read enough from the DSP memory to get an idea of the stat
ページ8に含まれる内容の要旨
6 QUIRC User Guide below. This puts the program into a mode that will be appropriate for most observing, and will at least allow one to obtain “normal” images. The description of theauto command below lists the parameters to be set. The proper defaults are # resets 1, shutter on, readout on, write on, idle on, double-correlated read on, number of samples 1, chop off, dummy read on, and dither subtract off. All of these parameters are saved each time they are changed, so if you have set these par
ページ9に含まれる内容の要旨
October 30, 1997 7 4 Writing Scripts and Taking Mosaics Any sequence of qcdcom commands can be entered into a text file (using your favorite editor) and executed by qcdcom. The command to do this is source file, where file is the filename of the command list. This allows some routine types of observations to be performed automatically, for example taking a sequence of images in J, H, and K. By entering a sequence of filter move, exposure time, and go commands into a file, taking a JHK sequence can be
ページ10に含まれる内容の要旨
8 QUIRC User Guide 0 positions are available for filters. These will include the standard broadband filters J, H, K, K,and H+K. In addition there will usually be several narrowband and other special purpose filters installed. Below is a list of the current filters as of the date of this manual. These are subject to change; the most recent configuration can be obtained by using thefi command in the qcdcom program, or by checking the QUIRC WWW homepage. The focus offsets for f/10 and f/31 are also give
ページ11に含まれる内容の要旨
October 30, 1997 9 5.2 Taking Dark Frames Since there is no blank position in the filter wheel and the shutter is warm, some extra care is required to obtain reasonable dark frames. With the installation of the second filter wheel, a “LOWFLUX" setting has been provided. This setting selects two filters simultaneously with incompatable bandpasses, e.g., the J filter and Br � (2.16 � m). This produces a reasonably low flux condition at the array, limited by the out-of-band blocking of the filters and le
ページ12に含まれる内容の要旨
10 QUIRC User Guide program is described here. 7.1 Setting up The setup file.vf-init has been installed in the home directory of the userobs. If running from a different user name, you must have this file in your home directory, as well as the*.cm files and ps proc. The program can be run by typing the following in any window: %vf& To display images automatically, one must set the data directory to be the same as where qcdcom is storing the FITS files. This is done by clicking on the “File" button a
ページ13に含まれる内容の要旨
October 30, 1997 11 The TCS coordinate window (under Options) can be used to center a source or move it around the array at the 88-inch. The plate scale defaults to the f/10 scale (0.1886 arcsec/pix), for the f/31 scale it is 0.0608 arcsec/pix. First move to the source and press the “f" key, it will grab the pixel location as the “From" coordinates (you may need to click left with the mouse on the source before hitting the F key). Then move to the center or wherever and hit the “t" key to grab t
ページ14に含まれる内容の要旨
12 QUIRC User Guide > ll h file i Read DSP code .lod file ll reads a DSP code binary file into the Sparcstation memory. > dl hi Download DSP code dl sends the DSP code to the DSP electronics, and then causes the DSP to start executing this code. dl also asks the DSP to recalibrate its A/D converter, which takes about 2 seconds. > du h file i Download Utility board code du loads the utility board code. This command should be run after the DSP has been initilalized with thedl ordf commands above. Th
ページ15に含まれる内容の要旨
October 30, 1997 13 > object h [time [name ]] i Setup for object object prepares qcdcom to take an exposure of a general target. You can specify integration time as the first argument and an object name as the second. The object command sets the automatic actions: # of resets: 1, shutter on, readout on. Example: object 300 N3031 (set integration time to 300 sec and object name to N3031) Example: object 0.18 (set integration time to 0.18 sec ) > auto hi set automatic action auto goes through the c
ページ16に含まれる内容の要旨
14 QUIRC User Guide � dither subtract on/off This option, when turned on, will subtract the previous image from the current one and store the result in a file with a “chop" added to the normal data file name instead of the file number. The name is the same as the chop mode described above. This is often useful when dithering on a faint source that cannot be seen without subtracting the sky/array background from the image. For experienced users: note that if you want to use auto from a script, you c
ページ17に含まれる内容の要旨
October 30, 1997 15 > fw h wheel# position i Set filter wheel to position Set the specified filter wheel (1 or 2) to a specific position (1 through 8). For example, one would give the command fw 2 3 to move filter wheel 2 to position number 3. This command is normally not used, the fi command (see above) is used to set the standard filter positions. However, this command could be used to set some non-standard combination of filters, such as the K filter and a narrowband filter. > fn h fileno i Set runnin
ページ18に含まれる内容の要旨
16 QUIRC User Guide > name h objname i Set object name name is used to set the object name which will be written to the FITS header. > pupil h num command i Set pupil position This command sets the pupil position. If no pupil number is given, a list of available pupils are given and the current pupil position is shown. If the pupil number is different from the current, the pupil slide is moved to the new position. Note that the positions are separated by 7500 steps of the motor, so it takes many
ページ19に含まれる内容の要旨
October 30, 1997 17 > sound hi Toggle fancy sounds Qcdcom will use distinctive sounds for various operations. If you don’t want to listen to them you can turn them off with the sound command. > synch hi “Ping” the DSP by sending it data and asking it to send it back. This is useful to check to see whether the controller is alive and receiving commands properly from qcdcom, or if the electronics may need a hardware reset. > wf h [file ] i Write FITS file Qcdcom reads out the array into memory, and
ページ20に含まれる内容の要旨
18 QUIRC User Guide Examples: � oc IDL put controller in idle mode � oc RDC perform detector read > diag l1 h cnt f r|c g data ] i 4MHz loopback test mode. Test fiber optic interface in hardware loopback mode. Receiver is wired for operation at 4MHz, and a fiber is connected directly between the receiver and transmitter. This test runs cnt loops of 65536 words each, with values 0 through 0xFFFF. If the c option is specified, then data is a value (in hex) to be sent repeatedly. If the r option is sp
