@article{17da6fc0477f479db30e0adb5f662e79,
title = "Astrometric calibration and performance of the dark energy camera",
abstract = "We characterize the ability of the Dark Energy Camera (DECam) to perform relative astrometry across its 500Mpix, 3-deg2 science field of view and across four years of operation. This is done using internal comparisons of ∼4 × 107 measurements of high signal-to-noise ratio stellar images obtained in repeat visits to fields of moderate stellar density, with the telescope dithered to move the sources around the array. An empirical astrometric model includes terms for optical distortions; stray electric fields in the CCD detectors; chromatic terms in the instrumental and atmospheric optics; shifts in CCD relative positions of up to ≈10 μm when the DECam temperature cycles; and low-order distortions to each exposure from changes in atmospheric refraction and telescope alignment. Errors in this astrometric model are dominated by stochastic variations with typical amplitudes of 10–30 mas (in a 30 s exposure) and 5′–10′ coherence length, plausibly attributed to Kolmogorovspectrum atmospheric turbulence. The size of these atmospheric distortions is not closely related to the seeing. Given an astrometric reference catalog at density ∼0.7 arcmin-2, e.g., from Gaia, the typical atmospheric distortions can be interpolated to ≈7 mas rms accuracy (for 30 s exposures) with 1¢ coherence length in residual errors. Remaining detectable error contributors are 2–4 mas rms from unmodelled stray electric fields in the devices, and another 2–4 mas rms from focal plane shifts between camera thermal cycles. Thus the astrometric solution for a single DECam exposure is accurate to 3–6 mas (≈0.02 pixels, or ≈300 nm) on the focal plane, plus the stochastic atmospheric distortion.",
keywords = "Astrometry, Atmospheric effects, Instrumentation: detectors, Methods: data analysis",
author = "{DES Collaboration} and Bernstein, {G. M.} and R. Armstrong and Plazas, {A. A.} and Walker, {A. R.} and Abbott, {T. M.C.} and S. Allam and K. Bechtol and A. Benoit-L{\'e}vy and D. Brooks and Burke, {D. L.} and {Carnero Rosell}, A. and {Carrasco Kind}, M. and J. Carretero and Cunha, {C. E.} and {Da Costa}, {L. N.} and Depoy, {D. L.} and S. Desai and Diehl, {H. T.} and Eifler, {T. F.} and E. Fernandez and P. Fosalba and J. Frieman and J. Garc{\'i}a-Bellido and Gerdes, {D. W.} and D. Gruen and Gruendl, {R. A.} and J. Gschwend and G. Gutierrez and K. Honscheid and James, {D. J.} and S. Kent and E. Krause and K. Kuehn and N. Kuropatkin and Li, {T. S.} and Maia, {M. A.G.} and M. March and Marshall, {J. L.} and F. Menanteau and R. Miquel and Ogando, {R. L.C.} and K. Reil and A. Roodman and Rykoff, {E. S.} and E. Sanchez and V. Scarpine and R. Schindler and M. Schubnell and I. Sevilla-Noarbe and E. Suchyta",
note = "Publisher Copyright: {\textcopyright} 2017. The Astronomical Society of the Pacific. All rights reserved.",
year = "2017",
month = jul,
day = "1",
doi = "10.1088/1538-3873/aa6c55",
language = "English",
volume = "129",
journal = "Publications of the Astronomical Society of the Pacific",
issn = "0004-6280",
number = "977",
}