Standard Star Instructions » History » Version 102

Douglas Tucker, 08/15/2017 05:06 PM

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h1. Standard Star Instructions
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_(Author:  Douglas Tucker; Created: 29 Aug 2013; Updated: 28 Sep 2013; Updated 5 Aug 2014; Updated 21 Aug 2015; Updated 11 Aug 2016 by DLT and James Lasker; Updated 12 Aug 2016; Updated 22 Aug 2016; Updated 2 Sep 2016; Updated 10 Jan 2017; Updated: 15 Aug 2017)_
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h2. Instructions for DES Year 5_
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(Under Construction)
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* In the afternoon, run the kentools commands "ephem" and "standards" (described in the [[Introduction to kentools]]) to identify the appropriate sets of standard fields to observe that night.
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E.g., for the night of August 15, 2017, we have:
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prompt> ephem
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mjd 57981, date 20170815, Site CTIO, UT-offset 3 hr
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Current local time 13:59 CLST     UT 16:59     SidTim 09:54
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Sunset     19:25 CLST  22:25 UT   SidTim  230 deg
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Eve. -10   20:01 CLST  23:01 UT   SidTim  239 deg  Zeropoint; standards
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Eve. -14   20:20 CLST  23:20 UT   SidTim  244 deg  Begin obstac
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Eve. -18   20:39 CLST  23:39 UT   SidTim  248 deg  Last chance standards
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Midpoint   01:47 CLST  04:47 UT   SidTim  326 deg
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Moonrise   03:20 CLST  06:20 UT   SidTim  349 deg
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Morn -18   06:55 CLST  09:55 UT   SidTim   43 deg  Begin astronomical twilight
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Morn Std   07:13 CLST  10:13 UT   SidTim   47 deg  End obstac; begin standards
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Morn -10   07:33 CLST  10:33 UT   SidTim   52 deg
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Sunrise    08:09 CLST  11:09 UT   SidTim   61 deg
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Moon position (deg): RA 68.7, Dec 17.1 Phase: 0.448 
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* For a full DES night, we would take standard star fields in evening twilight and in morning twilight:
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prompt> standards 10:13
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UT Date = '2017/08/16 10:13'     Local time = 07:13
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SDSSJ0000-0000        ra 00:00:00  dec +00:00:00  secz 1.7  ß do all three!
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SDSSJ0100-0000        ra 01:00:00  dec +00:00:00  secz 1.4   
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SDSSJ0320-0000        ra 03:20:00  dec +00:00:00  secz 1.2
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_*To cut to the chase, it is simplest just to run the kentools commands "ephem" and "standards"   to .  Don't bother with standards if the sky is obviously cloudy, though.  ("Obviously cloudy" == any clouds seen by eye outside higher than 20 degrees above the horizon, or moderate to heavy clouds seen on the RASICAM or TASCA displays.  If in doubt, take a full complement of standards.)*_
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h2. _*Special Instructions for DES Year 4*_
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During DES Year 4, to help with the absolute calibration of the DES photometric system, we will be inter-mixing special HST CalSpec spectrophotometric standards in with the usual complement of nightly standards.  Not every night will have a CalSpec standard, but many of them will.  The CalSpec standards will be observed as part of the evening/morning twilight standard star observations.  To make things more transparent to the observer, a new standard star picker script has been built that outputs a triad of standards, one of which will be a CalSpec standard (if one is available).   The output for the CalSpec standard will be the name of a json file (e.g., "WD0308-565_CCD_52.json") to be used for that night (not only are there different stars, but, for the CalSpec program, we want to place the CalSpec standard on various CCDs on different nights and use different exposure times -- e.g., the json file "WD0308-565_CCD_52.json" is for placing CalSpec standard WD0308-565 on the DECam CCD 52 -- hence the multiple json files per CalSpec standard).  The json files for the CalSpec standards _*should*_ appear in the SISPI Exposure console menu, just like the json files for the normal nightly standards, but, just in case they don't, you can find them in the CalSpec subdirectory of either of these two directories on observer1/observer2/observer3: 
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(The json scripts for the "normal" nightly standards are also under these two main directories, in the "grizY", "Yzirg", "ugrizY", and "Yzirgu" subdirectories.  The names of the subdirectories for the "normal" nightly standards describe which filters are used -- in particular, whether the u-band filter is used -- and whether one starts with the reddest filter (Y-band) or with the bluest ("u" or "g").) 
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_Note that we only have grizY json scripts for these special CalSpec program fields; so, if you have a special CalSpec program field during evening twilight, just use the provided grizY json script (i.e., don't try to create a Yzirg json script for the special CalSpec program field)._
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_*To identify the appropriate triads of standard fields to observe, it is simplest just to run the kentools commands "ephem" and "calspec"  described in the [[Introduction to kentools]].  ("calspec" is the DES Year 4 equivalent of the kentools command "standards" used in previous years.)  Don't bother with standards if the sky is obviously cloudy, though.  ("Obviously cloudy" == any clouds seen by eye outside higher than 20 degrees above the horizon, or moderate to heavy clouds seen on the RASICAM or TASCA displays.  If in doubt, take a full complement of standards.)*_  
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_*Caveat:*  The field C26202 is *both* a normal nightly standard star field *and* a special calspec program field.  If the kentools calspec commands returns "C26202/HST", use the normal nightly standard grizY or Yzirg script; if the command returns C26202_CCD_<NN>, where <NN> is a CCD number, use the appropriate calspec script, instead._
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*([Outdated:]* In additional, a lookup table, with entries in 15-minute increments, can be found here:  "NightlyAndCalSpecStandards.txt": (Currently, it covers nights from August 14-September 5, 2016.)*)*
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On full DES nights, observe standards during both evening and morning twilight (if sky is clear); on DES half-nights, observe standards during twilight and at the middle-of-the-night switchover.
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* For evening/morning twilight, observe all 3 standards output by the "calspec" command
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** For the "normal" nightly standards, use the "Yzirg" scripts for evening twilight and the "grizY" scripts
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   for morning twilight and middle-of-the-night switchover observations (but, if you accidentally get this 
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   switched around, it is not a big deal). 
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** Standard star fields are typically widely separated and typically require wide slews.  *_To speed the process, the observers may want to observe the standards from East to West or from West to East, so the telescope doesn't need to slew back and forth over the sky._*  (I.e., not from East to West and back to East again.)  Typically, this means observing the fields in order of either increasing RA or decreasing RA (minding the RA=360/0deg wrap!)
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* For the middle-of-the-night switchover, observe _*only one_* of the 3 standards output by the "calspec" command -- preferably the high-airmass standard.
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* If heading into a (first half-night) switchover or heading into morning twilight, don't interrupt a SN sequence just to start standards on time, since SN sequences are basically "all-or-nothing" and we don't want to have to completely re-do a SN sequence the next night.  (It is however permissible to break into an obstac sequence of wide-field survey exposures to start standards on time.  Just let the current wide-field exposure to finish before moving on to standards.)
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* For further details for the "normal" nightly standards, see the next section on "General Instructions": .
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For reference, here is a table of all standard star fields ("normal" nightly and "calspec") that the observer might expect to see: [[The DES Year 4 Standard Fields]].
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h2. General Instructions (Primarily for DES Years 1, 2, 3, and likely 5)
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_*To cut to the chase, it is simplest just to run the kentools commands "ephem" and "standards"  described in the [[Introduction to kentools]] to find the appropriate triads of standard fields to observe.  If, however, you prefer tabulated lists, read the following and see the standard star look-up tables for each month below.  Don't bother with standards if the sky is obviously cloudy, though.  ("Obviously cloudy" == any clouds seen by eye outside higher than 20 degrees above the horizon, or moderate to heavy clouds seen on the RASICAM or TASCA displays.  If in doubt, take a full complement of standards.)*_
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* Standard star fields are to be observed every evening and morning twilight (and, for half nights,  at switchover) that appear to be clear, where "clear" is determined by a quick visual inspection of the RASICAM image, of the TASCA image, or of the sky itself.  If in doubt, assume the sky is clear and take a full complement of standards.
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* For evening twilight, the standards can begin about 45 minutes before the end of Astronomical (18-deg) Twilight.  If there is a late start, standards can continue until the end of Astronomical Twilight; after the end of Astronomical Twilight twilight, survey science observations must begin.
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* For morning twilight, the standards should start 25 minutes after the start of Astronomical (18-deg) Twilight.
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* If possible, for each twilight period, 3 standard star fields should be observed:  one at low airmass (X<1.25), on at medium airmass (X=1.25-1.65), and one at high airmass (X=1.65-2.10).  It is generally better to observe the high-airmass field first, since its airmass will be changing the most rapidly. _[Added 16 Dec 2013:]_ If you are comfortable doing so, you can try to arrange the observing sequence of the intermediate- and low-airmass fields so as to reduce slew time.
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* For half-nights, 1 or 2 fields -- preferably a low-airmass field and a high-airmass field -- should be observed just before switchover.  (If only one field, a high-airmass field is preferred.)
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* The list of DES standard star fields can be found here:  [[The Standard Fields]].  Note that they 
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are broken into 3 types:  a "Golden" sample, a "Silver" sample, and a "Bronze" sample.  The "Golden"
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sample fields, which have photometrically calibrated standards in all 5 DES filters (grizY) over the full DECam focal plane, take precedence.  The "Silver" and "Bronze" either are missing calibrated Y-band data or do not have calibrated standards just yet over the full DECam focal plane.  *Always make sure that at least one "Golden" (SDSS) standard star field is observed each clear night.*
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* For evening twilight, use the *DES/standard/Yzirg* scripts (which start with Y-band and end with g-band); for morning twilight or pre-switchover, use the *DES/standard/grizY* scripts (which start with g-band and end with Y-band).   (For those rare nights when we also observe in u-band, please use the corresponding "DES/standard/Yzirgu" and "DES/standard/ugrizY" scripts.)
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* The script *DES/defocus_nightly.json* should be appended to the last evening standard. No "break" is needed.  The script stays on the last standard field, defocuses, takes a single r-band image and refocuses. Obstac can continue on from this point without trouble. If this script *fails* and the camera is out of focus press the z-trim button on the ICS screen. This nightly defocus script should be run about once a week. Keep track in elog and announce at the 4 o'clock meeting.
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* There are several useful scripts in the StdStarPicker package in the DECamObserver account on observer2, including and
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* To get a full list of standard star fields that are in a good position to observe (airmass < 2.10, 
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moon separation > 15 deg, within Blanco horizon limits), use
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  source ~/dtucker/bin/setup_StdStarFieldPicker.csh      (or .bash if you are using bash shell)
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106 14 Douglas Tucker --help                       (for detailed help)
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* To get a preferred triad of standard fields -- a low-airmass field, a medium-airmass field, and a
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high-airmass field -- for a given time and date, use *(Note:  the kentools command "standards" is a wrapper for this python script)*:
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  source ~/dtucker/bin/setup_StdStarFieldPicker.csh        (or .bash if you are using bash shell)
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118 73 Douglas Tucker --help                     (for detailed help)
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  (Warning: will output a default json file, "stdstar.json".  Just ignore it.)
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* *For simplicity, look-up tables -- one for each month of DES Year 2 Operations -- listing the preferred triad for each 15-min interval throughout each night, can be found here:*
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> * "*listOfStdsByUT.Aug2015.txt*": 
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> * "*listOfStdsByUT.Sep2015.txt*":
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> * "*listOfStdsByUT.Oct2015.txt*":
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> * "*listOfStdsByUT.Nov2015.txt*":
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> * "*listOfStdsByUT.Dec2015.txt*":
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> * "*listOfStdsByUT.Jan2016.txt*":
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> * "*listOfStdsByUT.Feb2015.txt*":
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(Old Year 1 and Year 2 versions can be found in the attached files below.  Note that the tables vary year-to-year, since Moon-avoidance is built into these tables and the Standard Star Picker tool from which these tables were derived.)
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* _*You can also just run the the kentools commands "ephem" and "standards" described in the [[Introduction to kentools]] to find the appropriate triads of standard fields to observe.  This is usually the simplest option.*_
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h2. Attachments