Design Overview and Performance of the WIYN High Resolution Infrared Camera (WHIRC)

Design Overview and Performance of the WIYN High Resolution Infrared Camera (WHIRC)

We present the design overview and on-telescope performance of the WIYN High Resolution Infrared Camera (WHIRC). As a dedicated near-infrared (0.8-2.5 mu m) camera on the WIYN Tip-Tilt Module (WTTM) port, WHIRC can provide near-diffraction-limited imaging with an FWHM of similar to 0.25 at K sub(s)...

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Published in:Publications of the Astronomical Society of the Pacific Vol. 122; no. 890; pp. 451 - 469
Main Authors: Meixner, Margaret, Smee, Stephen, Doering, Ryan L, Barkhouser, Robert H, Miller, Todd, Orndorff, Joseph, Knezek, Patricia, Churchwell, Ed, Scharfstein, Gregg, Percival, Jeffrey W, Mills, David, Corson, Charles, Joyce, Richard R
Format: Journal Article
Language:English
Published: 01-04-2010
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Summary:We present the design overview and on-telescope performance of the WIYN High Resolution Infrared Camera (WHIRC). As a dedicated near-infrared (0.8-2.5 mu m) camera on the WIYN Tip-Tilt Module (WTTM) port, WHIRC can provide near-diffraction-limited imaging with an FWHM of similar to 0.25 at K sub(s) with active WTTM correction and does deliver typical imaging with an FWHM of similar to 0.6 without WTTM. WHIRC uses a 2048 X 2048 HgCdTe array from RaytheonAs VIRGO line, which has been developed for the VISTA project. The WHIRC filter complement includes J, H, K sub(s), and 10 narrowband filters. WHIRCAs compact design makes it the smallest near-infrared camera with this capability. We determine a gain of 3.3 +/- 0.2 e super(-) ADU super(-1) via a photon transfer analysis and a readout noise of similar to 19 e super(-). A measured dark current of 0.13 e super(-) s super(-1) indicates that the cryostat is extremely light tight. A plate scale of 0.099 X 0.10 pixel super(-1) results in a field of view (FOV) of 3.3' X 3.4', which is a compromise between the highest angular resolution achievable and the largest FOV correctable by WTTM. Measured throughput values ( similar to 0.27 +/- 0.02 in band) are consistent with those predicted for WHIRC based on an analysis of individual optical elements and detector quantum efficiency (QE). WHIRCAs photometric quality is better than similar to 0.02 magnitudes in all bands. WHIRC is a general use instrument at the WIYN telescope enabling high-definition near-infrared imaging studies of a wide range of astronomical phenomena including star formation regions, stellar populations, and interstellar medium in nearby galaxies, high- galaxies, and transient phenomena.
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ISSN:0004-6280
DOI:10.1086/651710