= Useful information for observations: List of astronomical Target, Pako scripts, Real Time Analysis, Observing strategies = <> == List of Astronomical Target for Nika January 2014 run7 == FXD: First version (8 Jan 2014) [[NikaRun7|Back to the NIKA run7 page]] The nominal NIKA frequencies for this run are 260 and 150 GHz (ie 1.15 and 2.00 mm). References and results are written [[http://www.iram.fr/wiki/nika2/index.php/NIKARun7|in this private page]] 1. Planets and Asteroids Mars, Uranus, Neptune for photometric calibration (primary calibrators) and focal plane geometry. (Venus, Jupiter, Saturn) too hot too big ||Name || Right Ascension || Declination || Diam (arcsec) || Flux @ 1.15 mm Jy || Flux @ 2.00 mm || TB K || ||MARS ||<)>13:17:21.2240 ||<)> -05:33:50.343||<)> 8.09x8.05 ||<)> 478.4 ||<)> 161.4 ||<)> 198.06|| ||URANUS ||<)>00:34:32.7042 ||<)> 02:59:35.055||<)> 3.44x3.33 ||<)> 42.06 ||<)> 15.98 ||<)> assumes 102@260, 113@150|| ||NEPTUNE||<)> 22:23:58.5378 ||<)> -10:43:13.926||<)> 2.18x2.12 ||<)> 21.03 ||<)> 7.15 ||<)> 125@100GHz only|| ||1 CERES ||<)>14: ||<)> 0: ||<)> 0.5 ||<)> 1.751 ||<)> 0.579 || Mueller's prediction (25-Jan-2014)at 1.3 and 3 mm into NIKA bands|| ||2 PALLAS ||<)> ? ||<)> ? ||<)> <1 ||<)> 1.850 ||<)> 0.612 || id|| ||4 VESTA ||<)>13:30 ||<)> -1: ||<)> 0.4 ||<)> 0.759 ||<)> 0.251 || id|| ||21 LUTETIA ||<)>12:35 ||<)> 0: ||<)> 0.1 ||<)> 1.2 ||<)> 0.4 || Flux TBC|| Here are the ephemeris for [[attachment:PlanethorizonRun7v1.pdf|all planets]] The near and far sidelobes could be measured with Jupiter and Saturn. 2. Usual bright quasars, secondary calibrators and strong galactic sources (end of the list is dedicated to polarisation) for image quality, linearity checks, and pointing sessions [[attachment:NIKA2014R7selection.pdf|Bright source selection]] Here is IRAM old published report: [[http://www.iram.es/IRAMES/mainWiki/ListOfAstroTarget2012N5?action=AttachFile&do=view&target=lisenfeld-2000-secondary-calibs-for-mambo.pdf|Secondary Calibrators Lisenfeld report]], and, more recent list updated till the end of the MAMBO pool in 2010: [[https://pool.iram.es/bolocalsources.php|Secondary Calibrators MAMBO pool database]]. 3. Weak Galactic sources for photometric calibration checks [[attachment:NIKA2014R7WGalhorizon.pdf|Weak galactic sources]] 4. External extended galaxies for Science demonstration (mapping) [[attachment:NIKA2014R7XGalhorizon.pdf|Nearby galaxies]] 5. High redshift sources for Science demonstration (sensitivity) [[attachment:NIKA2014R7Hizhorizon.pdf|Distant galaxies]] Here is the full detailed formatted list [[http://www.iram.fr/wiki/nika2/images/8/85/Source_list_fmt2014R7.txt|Full list]] with fluxes. Here is the catalog for [[http://www.iram.fr/wiki/nika2/images/b/bb/NIKA2014v1.sou.txt|Pako]] has to be RENAMED to NIKA2014R7.sou on the pako computer. Here is a list of IRAM pointing sources with fluxes at 3mm and 2mm (I miss fluxes at 1mm, SL) [[attachment:ListAstroTargetNika3/IRAM_pointing_sources_with_fluxes.xls|FluxForPointingSources]] ---- == Interface with the telescope: Pako == Short manual on useful "Pako for Nika" see on Granada computers on the NIKA directory Pako_helpv17.txt - Pako scripts are in the Pako subdirectory - Before starting the pointing session, we may be requested to move the azimuth by 60deg to reset the inclinometer of the az axis. - Always stay at more that 1 deg from the Sun. There are internal safeties that prevent the antenna to point to the Sun, but we may not get error messages. - try to get sources uniformly distributed on the sky, hence give priority to high elevation sources that are usually harder to reach. - Do one focus at the beginning. No need to do more focus than one every 2-3hours. The antenna can point between 60 and 460 degrees in azimuth, between 20 and 80 degrees in elevation. - If a source is available both at low and high azimuth, use command SET TOPO LOW (or SET TOPO HIGH) to stay on the source without moving. - The minimum number of sources to observe for the pointing model is 15. 30 is good enough. - the pointing sources should be observed on 'short' period, e.g. 3-4 hours to avoid daily pointing variations == Commissioning requirements and observations plan == === Abstract === There will be about 70h hours of observations dedicated to commissioning (see [[GoalsPrepStaffN7|Goals and schedule page]]. Procedures will be tested several times, which include Pointing (Cross), Focus, OTF_Geometry, Skydip, Lissajous, OTF_Map. Tests include tuning, auto-tuning, robustness of data acquisition. Photometric calibration includes planets and secondary calibrators. Skydip and Lissajous sequences need to be better tested than before. Other sequences should be straightforward. The plateau systematics will be investigated via the OTF_geometry sequences. === Detailed version (Based on Run 6 program, updated on 16/01/2014, SL FXD RZ) === ==== Before Tuesday 21 - First light, system check, choose reference detector ==== * Alignment with laser. Then align radio axis by minimizing the background (manual adjustment of M5 with micrometric screws). * Run pakoNIKA (paKo Revision v 1.1.14.1 2013-06-01) => the antenna mount drive slowRate will be set to 8 Hz for all observations (if needed to go back to 1Hz as previous runs: let the operator reboot vac1, then use pakoNIKA2012). * First light, track Uranus, check acquisition data, tuning algorithm etc. * Start with Run 6 pointing model. First of all do a CROSS SCAN to see which is the reference detector (at the center of the cross), and to check synchronization (e.g. zig-zag between subscans). Then do a FOCUS, then check with a CROSS, then the first OTF_geometry on Uranus. Among few detectors at the center of the arrays choose one at 2 mm that is sensitive, stable and with also a stable and sensitive 1mm detector pointing less than few arc-seconds from it (due to the atmosphere the 2mm band gives always better images, so it is better for pointing and focus); to set the reference detector use OFFSET a b /SYSTEM Nasmyth, and check with a cross. Once this is done do not change this reference anymore, except if some problems appear (stability or something else). On the following scans, when it is needed to adjust the pointing use only SET POINTING (not SET OFFSET, which purpose is mainly to point off-source or to change the reference detector). ==== Tuesday 21 - OTF_Geometry & Pointing model session: ==== * Cross + pointing Lissajous (do that systematically through this characterization run). * Focus + Focus_Liss (idem). Set focus, then redo cross for check. As set on the previous day, the reference detector is at 2mm, but check also the 1mm detector nearby; if the best focus is not at the same position for both band, take the best at 1 mm (since the stronger effects are on the shorter wavelength). ''Note: we need to look for an explanation of the elliptical beams observed during the previous runs (~1-2" difference between the major axis and the minor axis of the beams)''. * Several OTF_geometry for reproducibility and statistics. These beam maps will be the main tool to characterize the instrument (field of view geometry, flat fields, stability, plateau, etc.). Check the 2mm reference detector chosen the previous day can be kept, otherwise make sure the information about change of ref detector is transmitted to all person analyzing the data. The subscans steps must fulfill the Nyquist criteria for the 2 bands; at 1mm the HPBW ≤ 11" ==> steps should be 4" (or at most < 5", and at least > 3" to avoid paying too much in scanning time and file size). Attention! The useful portion of a map is smaller than the full map: in the scanning direction the observed size must be the scan velocity x 2 seconds larger than the required useful size ! * Pointing session. Observe 20 to 30 sources distributed in Az and El. For this commissioning run only do the pointing session with cross scans and Lissajous (time loss is expected to be almost negligible since the Lissajous will be running while analyzing the cross). Of course keep constant Nasmyth offsets during the whole session (it can still be changed latter during observations if the reference detector shows problems) but always apply the pointing corrections (otherwise we lose accuracy on the real position of the source and thus degrade the quality of the fit of the pointing model), and when they are > 5" always repeat the pointing with another cross (not only to check the pointing is back on the source, but also to accumulate data of good quality for fitting the pointing model). Fill the following table (Pointing X and Pointing Y are the the values entered in set pointing): || Scan || Object || Az || El || Pointing X || Pointing Y || '' Do we need to transfer the Nasmyth offset into the pointing model (e.i. cut and paste the Nasmyth offset that were chosen in !PaKo into some of the P parameters, so that afterward in !PaKo we type Nasmyth offset = 0 0 to choose the reference detector we took for the pointing session) ? Practical question concerning observations at the telescope, not data processing => see with AS and JP. '' * Skydips. Needed only to calibrate the total power coefficients (once fitted we will be able to calculate the total power in the line of sight at any time). One skydip (= 2 scans, 1 down 1 up) at the end of this session. Following days: ONE SKYDIP PER DAY for reproducibility, and one each time the power on the KIDs is changed. ==== Wednesday 22 - Polar setup: ==== * OTF_geometry on Uranus during the whole session (with pointing and focus regularly). * Skydip (measure extended instrumental polar). ==== Thursday 23 - Geom and Focus: ==== * Standard starting calibration sequence on Uranus: Cross, Pointing_Liss, Focus, Focus_Liss, Cross, OTF_geometry. TO DO EVERY DAY. * Focus Geometry: do OTF_geometry with 3 different set focus values (find best focus for other pixels than only the reference): 1^st^ on axis (Z) AND THEN lateral focus (X then Y) + repeat at least once ==> At least 3x3x2 = 18 scans. ''Attention! There is a lateral focus command in !PaKo, but apparently it doesn't stop the position of the secondary (M2) at various X and Y position but moves it continuously on a given range, like a cross scan. To be checked with JP and AS, though OTF_geometry at various values of X and Y focus is something different that a "cross lateral focus"''. * Accumulate beam maps: several OTF_geometry on the optimal "3D_focus" (==> statistics on pixels stability, FOV geometry, flat field, plateau, etc...). * Photometric calibration on primary and secondary calibrators with Lissajous scans and small OTF maps (Az El and/or few RA DEC for testing). Some secondary to observe: W3OH, K3-50A, MWC349, CRL2688, NGC7027, CepA, NGC7538. Bright quasar: 3C454.3, 3C84, OJ287, 3C111. Check geom: CygA, M82. * Few weak sources if the time (and weather) allows (Lissajous): check sensitivity. ==== Friday 24 - Polar characterization: ==== * Planet and Quasar: (small) OTF and Lissajous. * Possibly extended sources: CasA, Crab. ==== Saturday 25 - Validate integration time: ==== * Integrate on sources of medium to weak fluxes: WR147, IRC10420, some of the TAU sources (tbc), 4C05.19, APM08279, MM18423, PSS2322, SXDF, F10214. Lissajous. * Extended sources (OTF zigzag): CasA, Crab. Test various scan speed 10, 20, 30, 40, 50, 60 arcsec/s. * Test RA DEC OTF scans: NGC891. ==== Sunday 26 - Polar extended: ==== * Extended sources from strong to weak: Crab, CasA, (Orion) KL, NGC7023NW (~1h per source). ==== Monday 27 - Backup: ==== * If one of the above has suffered then redo it, otherwise try deep field (SXDF). == Science case demonstration == None this time since it is a commissioning run only. == Status of observations == [[SummaryObservationsRun7 |Current status of observationsRun7]]