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Redshift distributions of galaxies in the DES Science Verification shear catalogue and implications for weak lensing

Research output: Contribution to journalArticle

  • C. Bonnett
  • M. A. Troxel
  • W. Hartley
  • Professor Adam Amara
  • B. Leistedt
  • M. R. Becker
  • G. M. Bernstein
  • S. Bridle
  • C. Bruderer
  • M. T. Busha
  • M. Carrasco Kind
  • M. J. Childress
  • F. J. Castander
  • C. Chang
  • M. Crocce
  • T. M. Davis
  • T. F. Eifler
  • J. Frieman
  • C. Gangkofner
  • E. Gaztanaga
  • K. Glazebrook
  • D. Gruen
  • T. Kacprzak
  • A. King
  • J. Kwan
  • O. Lahav
  • G. Lewis
  • C. Lidman
  • H. Lin
  • N. MacCrann
  • R. Miquel
  • C. R. O'Neill
  • A. Palmese
  • H. V. Peiris
  • A. Refregier
  • E. Rozo
  • E. S. Rykoff
  • I. Sadeh
  • C. Sánchez
  • E. Sheldon
  • S. Uddin
  • R. H. Wechsler
  • J. Zuntz
  • T. Abbott
  • F. B. Abdalla
  • S. Allam
  • D. Capozzi
  • C. B. D'Andrea
  • Professor Bob Nichol
  • Professor Daniel Thomas
  • Dark Energy Survey Collaboration
We present photometric redshift estimates for galaxies used in the weak lensing analysis of the Dark Energy Survey Science Verification (DES SV) data. Four model- or machine learning-based photometric redshift methods—annz2, bpz calibrated against BCC-Ufig simulations, skynet, and tpz—are analyzed. For training, calibration, and testing of these methods, we construct a catalogue of spectroscopically confirmed galaxies matched against DES SV data. The performance of the methods is evaluated against the matched spectroscopic catalogue, focusing on metrics relevant for weak lensing analyses, with additional validation against COSMOS photo-z’s. From the galaxies in the DES SV shear catalogue, which have mean redshift 0.72±0.01 over the range 0.3<z<1.3, we construct three tomographic bins with means of z={0.45,0.67,1.00}. These bins each have systematic uncertainties δz≲0.05 in the mean of the fiducial skynet photo-z n(z). We propagate the errors in the redshift distributions through to their impact on cosmological parameters estimated with cosmic shear, and find that they cause shifts in the value of σ8 of approximately 3%. This shift is within the one sigma statistical errors on σ8 for the DES SV shear catalogue. We further study the potential impact of systematic differences on the critical surface density, Σcrit, finding levels of bias safely less than the statistical power of DES SV data. We recommend a final Gaussian prior for the photo-z bias in the mean of n(z) of width 0.05 for each of the three tomographic bins, and show that this is a sufficient bias model for the corresponding cosmology analysis.
Original languageEnglish
Article number042005
JournalPhysical Review D
Volume94
DOIs
Publication statusPublished - 30 Aug 2016

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  • PhysRevD.94.042005

    Rights statement: Reproduced by permission of the AAS.

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