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Observation and Data Reduction Strategy of WIRCam

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Broad-band filters: Y, J, H, Ks. Narrow band filters: Low OH-1 Low OH-2, CH4 On, CH4 Off, H2, K continuum. ... The H band is notoriously variable by /-0.5 mag. ... – PowerPoint PPT presentation

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Title: Observation and Data Reduction Strategy of WIRCam


1
Observation and Data Reduction Strategy of WIRCam
  • Chi-hung Yam
  • Institute of Astronomy and Astrophysics, Academia
    Sinica

2
Outlines
  • Overview of WIRCam.
  • Observation using WIRCam
  • Basic Rule in IR observation
  • Optimized exposure time fragment
  • Dithering Patterns
  • Data evaluation procedures
  • Data reduction
  • Post-run data pre-processing
  • Image stacking
  • Science with WIRCam
  • Some images of CFHT and IAA projects (Engineering
    and science).

3
Overview of WIRCam
  • 4 2k-by-2k pixel Hawaii2-RG arrays. FoV is 20x20
    arcmin with resolution 0.3 arcsec per pixel.
  • Filters
  • Broad-band filters Y, J, H, Ks
  • Narrow band filters Low OH-1 Low OH-2, CH4 On,
    CH4 Off, H2, K continuum.
  • Most different features
  • On-chip guiding
  • Sub-pixel dithering
  • First on-chip guiding IR array. This function
    works with image stabilization unit to provide
    sub-pixel dithering.
  • The measured optical distortion of WIRCam is
    lt0.8 (maximal in the corners of the field) or
    20 pixels.
  • Exposure overhead 5 seconds (expected), current
    engineering setup 10 seconds
  • Shortest exposure 1 seconds (expected), current
    setup 5.6(readoutguiding) seconds, will be 2.2
    seconds in April.

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Observation using WIRCam
  • Basic Rule in IR observation
  • Optimize exposure time fragment
  • Dithering Patterns
  • Overhead
  • Nodding
  • Read-out

8
Basic Rule in IR observation
  • The sky variability in the near infrared is
    important. As a canonical rule, the level varies
    by 10 over a 10 minute timescale. The H band is
    notoriously variable by /-0.5 mag. In J and Ks,
    it /-0.3 mag.

9
Optimized exposure time fragment
  • The longest exposure time is limited by sky
    background.
  • The shortest exposure time is limited by image
    read-out time guiding system.

10
Dithering Patterns
  • MD-Micro-dithering
  • DP-Dithering pattern
  • WDP-WIRCam dithering pattern
  • NDP-Nodding pattern
  • Amount of shift NDPgtWDPgtDPgtMD
  • For target gt 10 or 30 of the mosaic, use NDP
    will get better sky background.

11
WIRCam Dithering Pattern
12
Nodding Pattern
13
Micro-dithering
  • The best seeing at Mauna Kea can reach to 0.50.6
    arc-second. This means images taken by WIRCam
    (0.3 arcsec/pixel) under extremely good seeing
    is under-sampled.
  • Therefore, we apply micro-dithering to
    reconstruct under-sampled images. This method
    are used on HST before to enhance image
    resolution.
  • The shift of each MD frame is set to 0.5 pixel.
    Each MD loop contains 4 sub-exposures. The
    maximum MD loops is 7, which means 28 frame in
    total.
  • The performance of MD is depending on guiding
    system. We need to have guiding star, which is
    bright enough, on each chip to provide.

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Drizzling Algorithm
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Image Stabilize Unit
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Data evaluation Components (Real-time pipeline)
  • Factor
  • IQ
  • Sky background
  • Absorption
  • Bash script
  • Starting RT process as a demon in system.
  • Perl scripts
  • wircam_realtime_improc
  • wircam_realtime_sextract
  • C programs
  • wcreduce image reduction.
  • imextract extracting central region of image.
  • seeingstat calculating seeing based on a catalog
    of detected stars.
  • fhdrizzle combining micro-dithering/multi-exposur
    e images.
  • imabs absorption calculating.
  • libeir library for ELIXIR_IR system.
  • Other tools
  • SEXtractor (Terapix)
  • Configuration files

20
Image Reduction
  • Raw images are reduced right after each exposure.
  • NO SKY BACKGROUNG SUBTRACTING!!

21
Yes
No
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Absorption
  • The absorption is calculated by the following
    equations

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Data reduction
  • Post-run pre-processing
  • Images will be reduce in CFHT using Elixir-IR
    data pipeline.
  • Current version of Elixir-IR is IDL version, not
    yet finalized.
  • Image stacking
  • The very accurate astrometry (WCS) is need for
    image stacking.
  • Distortion of the WIRCam images should be
    considered.
  • Terapix_at_fr will provide image stacking for WIRCam
    images
  • We are also developing our own software package
    for WIRCam user in ASIAA.
  • Data archiving

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Science with WIRCam
  • Galactic Astrophysics
  • Star formation
  • The initial mass function
  • Galactic structure and stellar populations
  • Galaxy evolution
  • Nearby galaxy
  • Extragalactic Astronomy and Cosmology
  • Galaxy counts
  • Galaxy clusters
  • Super nova event
  • QSO

http//www.cfht.hawaii.edu/News/Projects/WIRCam/Ne
w/WSGroup/JLB_Science.pdf
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NGC 1976
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