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= Abstract =
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Pointing (Cross), Focus, OTF_Geometry, Skydip, Lissajou, OTF_Map. Tests include tuning, auto-tuning, robustness of data acquisition. Photometric calibration includes planets and secondary calibrators. Skydip and Lissajou sequences need to be better tested than before. Other sequences should be straightforward. The plateau systematics will be investigated via the OTG_geometry sequences. Near sidelobes can be measured by doing 5x5 map of of Jupiter or Saturn and use Pf variable. 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 OTG_geometry sequences. Near sidelobes can be measured by doing 5x5 map of of Jupiter or Saturn and use Pf variable.

= Detailed version (after discussions SL, FXD, RZ, NB, AB, AS, HU) =

 * Nominal mode is 8Hz.

 * A reasonable pointing session to start with. A least 15 sources spread on the local sky. Reference pixel at 2mm (with a close 1mm counterpart) so as to avoid problems with weather.

Useful information for observations: List of astronomical Target, Pako scripts, Real Time Analysis, Observing strategies

Contents

  1. Useful information for observations: List of astronomical Target, Pako scripts, Real Time Analysis, Observing strategies
    1. List of Astronomical Target for Nika June 2013 run6
    2. Interface with the telescope: Pako
    3. Commissioning requirements
  2. Abstract
  3. Detailed version (after discussions SL, FXD, RZ, NB, AB, AS, HU)
    1. Science case demonstration
    2. Status of observations

List of Astronomical Target for Nika June 2013 run6

FXD: First version (2 May 2013)

Back to the NIKA run6 page

1. Planets

Mars, Uranus, Neptune for photometric calibration (primary calibrators) and focal plane geometry.

(Venus, Jupiter, Saturn) too hot too big

Name

Right Ascension

Declination

Size (arcsecond diameter)

Flux @ 1.25 mm

Flux @ 2.05 mm

MARS

04:25:09.5231

21:50:15.451

3.80x3.78

95.3 Jy

32.8 Jy

URANUS

00:45:14.8752

04:06:50.511

3.44x3.33

47.2 Jy

16.4 Jy

NEPTUNE

22:29:43.1041

-10:09:06.590

2.26x2.20

19.4 Jy

6.72 Jy

Here are the ephemeris for all planets The near and far sidelobes could be measured with Jupiter and Saturn.

2. Usual bright quasars

  • for image quality, linearity checks, and pointing sessions

Bright quasars

3. Secondary Calibration sources Calibrator galactic sources Here is IRAM report on Secondary Calibrators

4. Strong Galactic sources to test mapping Strong galactic sources

5. Weak Galactic sources

  • for photometric calibration checks

Weak galactic sources

6. External extended galaxies

  • for Science demonstration (mapping)

Nearby galaxies

7. High redshift sources

  • for Science demonstration (sensitivity)

Distant galaxies

8. Hatlas lens sources

  • for Science demonstration (sensitivity)

HSO galaxies

9. Deep survey and SZ sources

  • for Science demonstration (SZ sensitivity)

Deep survey and cluster of galaxies

Here is the full detailed formatted list Full list v3 with fluxes

Here is the catalog for Pako has to be RENAMED to NIKA2013R6.sou on the pako computer (DONE)

Here is a list of IRAM pointing sources with fluxes at 3mm and 2mm (I miss fluxes at 1mm, SL) FluxForPointingSources

Interface with the telescope: Pako

Short manual on useful "Pako for Nika" see on Granada computers 2013_docs_for_observations/Pako_helpv15.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 TOTO 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

Abstract

We can consider using 40 hours to test, calibrate and commission the instrument. 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 OTG_geometry sequences. Near sidelobes can be measured by doing 5x5 map of of Jupiter or Saturn and use Pf variable.

Detailed version (after discussions SL, FXD, RZ, NB, AB, AS, HU)

  • Nominal mode is 8Hz.
  • A reasonable pointing session to start with. A least 15 sources spread on the local sky. Reference pixel at 2mm (with a close 1mm counterpart) so as to avoid problems with weather.

Science case demonstration

We want to show typical science demonstration data in five areas where we can compare our results with previous (Mambo, Laboca, JCMT, Bolocam) bolometer array results. We have a total of 85 hours. About 12 hours for 7 days. Subtracting the 40 hours for commissioning, we are left with 45 hours. Taking out 15 hours for calibration (calibration on planets and secondary calibrators, pointing, focus, skydip), we are left with 30 hours of science scans, which we spread this way, with the sources in order of priority:

  1. Dense Galactic regions (4h)
  2. Rho Oph (6h)
  3. Extended galaxies (4h) NGC891
  4. Faint sources (7h)
  5. Deep survey (4h)
  6. Clusters of galaxies (5h) RXJ

Here is a priority list of targets (see the complete list above).

  1. Galactic regions, From brighter to fainter TBD
    • 1.1. Large map of OrionLBS23SM 1.2. Large map of DR21 1.3. Large map of Crab, CasA 1.4. Map of NGC2023 1.5. Map of the horsehead
  2. Galactic faint sources: Rho Oph
  3. Extended galaxies
    • 2.1. M82 2.5. NGC891
  4. Faint high-z point sources starting with 30 mJy sources at 1mm TBD:
    • Arp220, 4C05.19, APM08279+5255, MM18423, SMMJ2135, HAT083051, HAT113526, HAT114637, HAT133008, HSO_ID141, HAT133649, HAT134429, HAT141351 H1413+517, F10214+4724, HLSW01, BR1202-0725, BRI1335-0417, SBS1408+567, , HSO_ID017, HSO_ID081, HSO_ID011,HSO_ID130.
  5. Deep survey: The idea is to cover a field with 1mJy rms sensitivity at 1mm and 0.5mJy at 2mm, this is about one hour per camera FOV (about 3 arcmin^2). Map should be 3x4 arcmin. Exact field to be decided around a faint source (5-10 mJy)
  6. Clusters of galaxies RXJ1347-1145, Confirm

Status of observations

Current status of observationsRun6

ListOfAstroTarget2013N6 (last edited 2013-06-06 10:13:33 by NikaBolometer)