English

The redMaPPer Galaxy Cluster Catalog From DES Science Verification Data

Cosmology and Nongalactic Astrophysics 2016-05-27 v2

Abstract

We describe updates to the \redmapper{} algorithm, a photometric red-sequence cluster finder specifically designed for large photometric surveys. The updated algorithm is applied to 150deg2150\,\mathrm{deg}^2 of Science Verification (SV) data from the Dark Energy Survey (DES), and to the Sloan Digital Sky Survey (SDSS) DR8 photometric data set. The DES SV catalog is locally volume limited, and contains 786 clusters with richness λ>20\lambda>20 (roughly equivalent to M500c1014h701MM_{\rm{500c}}\gtrsim10^{14}\,h_{70}^{-1}\,M_{\odot}) and 0.2<z<0.90.2<z<0.9. The DR8 catalog consists of 26311 clusters with 0.08<z<0.60.08<z<0.6, with a sharply increasing richness threshold as a function of redshift for z0.35z\gtrsim 0.35. The photometric redshift performance of both catalogs is shown to be excellent, with photometric redshift uncertainties controlled at the σz/(1+z)0.01\sigma_z/(1+z)\sim 0.01 level for z0.7z\lesssim0.7, rising to 0.02\sim0.02 at z0.9z\sim0.9 in DES SV. We make use of \emph{Chandra} and \emph{XMM} X-ray and South Pole Telescope Sunyaev-Zeldovich data to show that the centering performance and mass--richness scatter are consistent with expectations based on prior runs of \redmapper{} on SDSS data. We also show how the \redmapper{} \photoz{} and richness estimates are relatively insensitive to imperfect star/galaxy separation and small-scale star masks.

Keywords

Cite

@article{arxiv.1601.00621,
  title  = {The redMaPPer Galaxy Cluster Catalog From DES Science Verification Data},
  author = {E. S. Rykoff and E. Rozo and D. Hollowood and A. Bermeo-Hernandez and T. Jeltema and J. Mayers and A. K. Romer and P. Rooney and A. Saro and C. Vergara Cervantes and R. H. Wechsler and H. Wilcox and T. M. C. Abbott and F. B. Abdalla and S. Allam and J. Annis and A. Benoit-Lévy and G. M. Bernstein and E. Bertin and D. Brooks and D. L. Burke and D. Capozzi and A. Carnero Rosell and M. Carrasco Kind and F. J. Castander and M. Childress and C. A. Collins and C. E. Cunha and C. B. D'Andrea and L. N. da Costa and T. M. Davis and S. Desai and H. T. Diehl and J. P. Dietrich and P. Doel and A. E. Evrard and D. A. Finley and B. Flaugher and P. Fosalba and J. Frieman and K. Glazebrook and D. A. Goldstein and D. Gruen and R. A. Gruendl and G. Gutierrez and M. Hilton and K. Honscheid and B. Hoyle and D. J. James and S. T. Kay and K. Kuehn and N. Kuropatkin and O. Lahav and G. F. Lewis and C. Lidman and M. Lima and M. A. G. Maia and R. G. Mann and J. L. Marshall and P. Martini and P. Melchior and C. J. Miller and R. Miquel and J. J. Mohr and R. C. Nichol and B. Nord and R. Ogando and A. A. Plazas and K. Reil and M. Sahlén and E. Sanchez and B. Santiago and V. Scarpine and M. Schubnell and I. Sevilla-Noarbe and R. C. Smith and M. Soares-Santos and F. Sobreira and J. P. Stott and E. Suchyta and M. E. C. Swanson and G. Tarle and D. Thomas and D. Tucker and s. Uddin and P. T. P. Viana and V. Vikram and A. R. Walker and Y. Zhang},
  journal= {arXiv preprint arXiv:1601.00621},
  year   = {2016}
}

Comments

21 pages, accepted to ApJS (The Astrophysical Journal Supplement Series, Volume 224, Issue 1, article id. 1, pp. (2016))

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