Forward Global Photometric Calibration of the Dark Energy Survey

D. L. Burke; E. S. Rykoff; S. Allam; J. Annis; K. Bechtol; G. M. Bernstein; A. Drlica-Wagner; D. A. Finley; R. A. Gruendl; D. J. James; S. Kent; R. Kessler; S. Kuhlmann; J. Lasker; T. S. Li; D. Scolnic; J. Smith; D. L. Tucker; W. Wester; B. Yanny; T. M.C. Abbott; F. B. Abdalla; A. Benoit-Lévy; E. Bertin; A. Carnero Rosell; M. Carrasco Kind; J. Carretero; C. E. Cunha; C. B. D'Andrea; L. N. Da Costa; S. Desai; H. T. Diehl; P. Doel; J. Estrada; J. Garcia-Bellido; D. Gruen; G. Gutierrez; K. Honscheid; K. Kuehn; N. Kuropatkin; M. A.G. Maia; M. March; J. L. Marshall; P. Melchior; F. Menanteau; R. Miquel; A. A. Plazas; M. Sako; E. Sanchez; V. Scarpine; R. Schindler; I. Sevilla-Noarbe; M. Smith; R. C. Smith; M. Soares-Santos; F. Sobreira; E. Suchyta; G. Tarle; A. R. Walker

doi:10.3847/1538-3881/aa9f22

Forward Global Photometric Calibration of the Dark Energy Survey

D. L. Burke, E. S. Rykoff, S. Allam, J. Annis, K. Bechtol, G. M. Bernstein, A. Drlica-Wagner, D. A. Finley, R. A. Gruendl, D. J. James, S. Kent, R. Kessler, S. Kuhlmann, J. Lasker, T. S. Li, D. Scolnic, J. Smith, D. L. Tucker, W. Wester, B. YannyT. M.C. Abbott, F. B. Abdalla, A. Benoit-Lévy, E. Bertin, A. Carnero Rosell, M. Carrasco Kind, J. Carretero, C. E. Cunha, C. B. D'Andrea, L. N. Da Costa, S. Desai, H. T. Diehl, P. Doel, J. Estrada, J. Garcia-Bellido, D. Gruen, G. Gutierrez, K. Honscheid, K. Kuehn, N. Kuropatkin, M. A.G. Maia, M. March, J. L. Marshall, P. Melchior, F. Menanteau, R. Miquel, A. A. Plazas, M. Sako, E. Sanchez, V. Scarpine, R. Schindler, I. Sevilla-Noarbe, M. Smith, R. C. Smith, M. Soares-Santos, F. Sobreira, E. Suchyta, G. Tarle, A. R. Walker

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Abstract

© 2017 The American Astronomical Society. All rights reserved. Many scientific goals for the Dark Energy Survey (DES) require the calibration of optical/NIR broadband b = grizY photometry that is stable in time and uniform over the celestial sky to one percent or better. It is also necessary to limit to similar accuracy systematic uncertainty in the calibrated broadband magnitudes due to uncertainty in the spectrum of the source. Here we present a "Forward Global Calibration Method (FGCM)" for photometric calibration of the DES, and we present results of its application to the first three years of the survey (Y3A1). The FGCM combines data taken with auxiliary instrumentation at the observatory with data from the broadband survey imaging itself and models of the instrument and atmosphere to estimate the spatial and time dependences of the passbands of individual DES survey exposures. "Standard" passbands that are typical of the passbands encountered during the survey are chosen. The passband of any individual observation is combined with an estimate of the source spectral shape to yield a magnitude in the standard system. This "chromatic correction" to the standard system is necessary to achieve subpercent calibrations and in particular, to resolve ambiguity between the broadband brightness of a source and the shape of its SED. The FGCM achieves a reproducible and stable photometric calibration of standard magnitudes of stellar sources over the multiyear Y3A1 data sample with residual random calibration errors of per exposure. The accuracy of the calibration is uniform across the DES footprint to within . The systematic uncertainties of magnitudes in the standard system due to the spectra of sources are less than for main-sequence stars with .

Original language	English
Article number	41
Journal	Astronomical Journal
Volume	155
Issue number	1
DOIs	https://doi.org/10.3847/1538-3881/aa9f22
Publication status	Published - 1 Jan 2018

Keywords

Techniques: photometric
methods: observational

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10.3847/1538-3881/aa9f22

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Burke, D. L., Rykoff, E. S., Allam, S., Annis, J., Bechtol, K., Bernstein, G. M., Drlica-Wagner, A., Finley, D. A., Gruendl, R. A., James, D. J., Kent, S., Kessler, R., Kuhlmann, S., Lasker, J., Li, T. S., Scolnic, D., Smith, J., Tucker, D. L., Wester, W., ... Walker, A. R. (2018). Forward Global Photometric Calibration of the Dark Energy Survey. Astronomical Journal, 155(1), [41]. https://doi.org/10.3847/1538-3881/aa9f22

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title = "Forward Global Photometric Calibration of the Dark Energy Survey",

abstract = "{\textcopyright} 2017 The American Astronomical Society. All rights reserved. Many scientific goals for the Dark Energy Survey (DES) require the calibration of optical/NIR broadband b = grizY photometry that is stable in time and uniform over the celestial sky to one percent or better. It is also necessary to limit to similar accuracy systematic uncertainty in the calibrated broadband magnitudes due to uncertainty in the spectrum of the source. Here we present a {"}Forward Global Calibration Method (FGCM){"} for photometric calibration of the DES, and we present results of its application to the first three years of the survey (Y3A1). The FGCM combines data taken with auxiliary instrumentation at the observatory with data from the broadband survey imaging itself and models of the instrument and atmosphere to estimate the spatial and time dependences of the passbands of individual DES survey exposures. {"}Standard{"} passbands that are typical of the passbands encountered during the survey are chosen. The passband of any individual observation is combined with an estimate of the source spectral shape to yield a magnitude in the standard system. This {"}chromatic correction{"} to the standard system is necessary to achieve subpercent calibrations and in particular, to resolve ambiguity between the broadband brightness of a source and the shape of its SED. The FGCM achieves a reproducible and stable photometric calibration of standard magnitudes of stellar sources over the multiyear Y3A1 data sample with residual random calibration errors of per exposure. The accuracy of the calibration is uniform across the DES footprint to within . The systematic uncertainties of magnitudes in the standard system due to the spectra of sources are less than for main-sequence stars with .",

keywords = "Techniques: photometric, methods: observational",

author = "Burke, {D. L.} and Rykoff, {E. S.} and S. Allam and J. Annis and K. Bechtol and Bernstein, {G. M.} and A. Drlica-Wagner and Finley, {D. A.} and Gruendl, {R. A.} and James, {D. J.} and S. Kent and R. Kessler and S. Kuhlmann and J. Lasker and Li, {T. S.} and D. Scolnic and J. Smith and Tucker, {D. L.} and W. Wester and B. Yanny and Abbott, {T. M.C.} and Abdalla, {F. B.} and A. Benoit-L{\'e}vy and E. Bertin and Rosell, {A. Carnero} and Kind, {M. Carrasco} and J. Carretero and Cunha, {C. E.} and D'Andrea, {C. B.} and {Da Costa}, {L. N.} and S. Desai and Diehl, {H. T.} and P. Doel and J. Estrada and J. Garcia-Bellido and D. Gruen and G. Gutierrez and K. Honscheid and K. Kuehn and N. Kuropatkin and Maia, {M. A.G.} and M. March and Marshall, {J. L.} and P. Melchior and F. Menanteau and R. Miquel and Plazas, {A. A.} and M. Sako and E. Sanchez and V. Scarpine and R. Schindler and I. Sevilla-Noarbe and M. Smith and Smith, {R. C.} and M. Soares-Santos and F. Sobreira and E. Suchyta and G. Tarle and Walker, {A. R.}",

year = "2018",

month = jan,

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doi = "10.3847/1538-3881/aa9f22",

language = "English",

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Burke, DL, Rykoff, ES, Allam, S, Annis, J, Bechtol, K, Bernstein, GM, Drlica-Wagner, A, Finley, DA, Gruendl, RA, James, DJ, Kent, S, Kessler, R, Kuhlmann, S, Lasker, J, Li, TS, Scolnic, D, Smith, J, Tucker, DL, Wester, W, Yanny, B, Abbott, TMC, Abdalla, FB, Benoit-Lévy, A, Bertin, E, Rosell, AC, Kind, MC, Carretero, J, Cunha, CE, D'Andrea, CB, Da Costa, LN, Desai, S, Diehl, HT, Doel, P, Estrada, J, Garcia-Bellido, J, Gruen, D, Gutierrez, G, Honscheid, K, Kuehn, K, Kuropatkin, N, Maia, MAG, March, M, Marshall, JL, Melchior, P, Menanteau, F, Miquel, R, Plazas, AA, Sako, M, Sanchez, E, Scarpine, V, Schindler, R, Sevilla-Noarbe, I, Smith, M, Smith, RC, Soares-Santos, M, Sobreira, F, Suchyta, E, Tarle, G & Walker, AR 2018, 'Forward Global Photometric Calibration of the Dark Energy Survey', Astronomical Journal, vol. 155, no. 1, 41. https://doi.org/10.3847/1538-3881/aa9f22

TY - JOUR

T1 - Forward Global Photometric Calibration of the Dark Energy Survey

AU - Burke, D. L.

AU - Rykoff, E. S.

AU - Allam, S.

AU - Annis, J.

AU - Bechtol, K.

AU - Bernstein, G. M.

AU - Drlica-Wagner, A.

AU - Finley, D. A.

AU - Gruendl, R. A.

AU - James, D. J.

AU - Kent, S.

AU - Kessler, R.

AU - Kuhlmann, S.

AU - Lasker, J.

AU - Li, T. S.

AU - Scolnic, D.

AU - Smith, J.

AU - Tucker, D. L.

AU - Wester, W.

AU - Yanny, B.

AU - Abbott, T. M.C.

AU - Abdalla, F. B.

AU - Benoit-Lévy, A.

AU - Bertin, E.

AU - Rosell, A. Carnero

AU - Kind, M. Carrasco

AU - Carretero, J.

AU - Cunha, C. E.

AU - D'Andrea, C. B.

AU - Da Costa, L. N.

AU - Desai, S.

AU - Diehl, H. T.

AU - Doel, P.

AU - Estrada, J.

AU - Garcia-Bellido, J.

AU - Gruen, D.

AU - Gutierrez, G.

AU - Honscheid, K.

AU - Kuehn, K.

AU - Kuropatkin, N.

AU - Maia, M. A.G.

AU - March, M.

AU - Marshall, J. L.

AU - Melchior, P.

AU - Menanteau, F.

AU - Miquel, R.

AU - Plazas, A. A.

AU - Sako, M.

AU - Sanchez, E.

AU - Scarpine, V.

AU - Schindler, R.

AU - Sevilla-Noarbe, I.

AU - Smith, M.

AU - Smith, R. C.

AU - Soares-Santos, M.

AU - Sobreira, F.

AU - Suchyta, E.

AU - Tarle, G.

AU - Walker, A. R.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - © 2017 The American Astronomical Society. All rights reserved. Many scientific goals for the Dark Energy Survey (DES) require the calibration of optical/NIR broadband b = grizY photometry that is stable in time and uniform over the celestial sky to one percent or better. It is also necessary to limit to similar accuracy systematic uncertainty in the calibrated broadband magnitudes due to uncertainty in the spectrum of the source. Here we present a "Forward Global Calibration Method (FGCM)" for photometric calibration of the DES, and we present results of its application to the first three years of the survey (Y3A1). The FGCM combines data taken with auxiliary instrumentation at the observatory with data from the broadband survey imaging itself and models of the instrument and atmosphere to estimate the spatial and time dependences of the passbands of individual DES survey exposures. "Standard" passbands that are typical of the passbands encountered during the survey are chosen. The passband of any individual observation is combined with an estimate of the source spectral shape to yield a magnitude in the standard system. This "chromatic correction" to the standard system is necessary to achieve subpercent calibrations and in particular, to resolve ambiguity between the broadband brightness of a source and the shape of its SED. The FGCM achieves a reproducible and stable photometric calibration of standard magnitudes of stellar sources over the multiyear Y3A1 data sample with residual random calibration errors of per exposure. The accuracy of the calibration is uniform across the DES footprint to within . The systematic uncertainties of magnitudes in the standard system due to the spectra of sources are less than for main-sequence stars with .

AB - © 2017 The American Astronomical Society. All rights reserved. Many scientific goals for the Dark Energy Survey (DES) require the calibration of optical/NIR broadband b = grizY photometry that is stable in time and uniform over the celestial sky to one percent or better. It is also necessary to limit to similar accuracy systematic uncertainty in the calibrated broadband magnitudes due to uncertainty in the spectrum of the source. Here we present a "Forward Global Calibration Method (FGCM)" for photometric calibration of the DES, and we present results of its application to the first three years of the survey (Y3A1). The FGCM combines data taken with auxiliary instrumentation at the observatory with data from the broadband survey imaging itself and models of the instrument and atmosphere to estimate the spatial and time dependences of the passbands of individual DES survey exposures. "Standard" passbands that are typical of the passbands encountered during the survey are chosen. The passband of any individual observation is combined with an estimate of the source spectral shape to yield a magnitude in the standard system. This "chromatic correction" to the standard system is necessary to achieve subpercent calibrations and in particular, to resolve ambiguity between the broadband brightness of a source and the shape of its SED. The FGCM achieves a reproducible and stable photometric calibration of standard magnitudes of stellar sources over the multiyear Y3A1 data sample with residual random calibration errors of per exposure. The accuracy of the calibration is uniform across the DES footprint to within . The systematic uncertainties of magnitudes in the standard system due to the spectra of sources are less than for main-sequence stars with .

KW - Techniques: photometric

KW - methods: observational

U2 - 10.3847/1538-3881/aa9f22

DO - 10.3847/1538-3881/aa9f22

M3 - Article

VL - 155

JO - Astronomical Journal

JF - Astronomical Journal

SN - 0004-6256

IS - 1

M1 - 41

ER -

Forward Global Photometric Calibration of the Dark Energy Survey

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Keywords

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