Optimized Photometric Redshifts for the Cosmic Assembly Near-Infrared   Deep Extragalactic Legacy Survey (CANDELS)

Dritan Kodra (1; 2); Brett H. Andrews (1; 2); Jeffrey A. Newman; (1; 2); Steven L. Finkelstein (3); Adriano Fontana (4); Nimish Hathi (5),; Mara Salvato (6); Tommy Wiklind (7); Stijn Wuyts (8); Adam Broussard (9),; Nima Chartab (10); Christopher Conselice (11); M. C. Cooper (12); Avishai; Dekel (13); Mark Dickinson (14); Harry Ferguson (5); Eric Gawiser (9); Norman; A. Grogin (5); Kartheik Iyer (15); Jeyhan Kartaltepe (16); Susan Kassin (5; and 17); Anton M. Koekemoer (5); David C. Koo (18); Ray A. Lucas (5),; Kameswara Bharadwaj Mantha (19; 20); Daniel H. McIntosh (21); Bahram; Mobasher (22); Camilla Pacifici (5); Pablo G. P\'erez-Gonz\'alez (23); Paola; Santini (4) ((1) Department of Physics; Astronomy; University of; Pittsburgh; (2) Pittsburgh Particle Physics; Astrophysics; and Cosmology; Center (PITT PACC); University of Pittsburgh; (3) Department of Astronomy,; The University of Texas at Austin; (4) Osservatorio Astronomico di Roma; (5); Space Telescope Science Institute; (6) Max-Planck-Institut f\"ur; extraterrestrische Physik; (7) Department of Physics; Catholic University of; America; (8) Department of Physics; University of Bath; (9) Department of; Physics; Astronomy; Rutgers; the State University of New Jersey; (10); Department of Physics; Astronomy; University of California; Irvine; (11); Jodrell Bank Centre for Astrophysics; University of Manchester; (12) Center; for Cosmology; Department of Physics & Astronomy; University of California,; Irvine; (13) Racah Institute of Physics; The Hebrew University; (14) NSF's; NOIRLab; (15) Dunlap Institute for Astronomy; Astrophysics; University of; Toronto; (16) School of Physics; Astronomy; Rochester Institute of; Technology; (17) The William H. Miller III Department of Physics & Astronomy,; Johns Hopkins University; (18) Department of Astronomy; Astrophysics,; University of California; Santa Cruz; (19) Minnesota Institute for; Astrophysics; University of Minnesota; (20) School of Physics; Astronomy,; University of Minnesota; (21) Department of Physics & Astronomy; University; of Missouri; Kansas City; (22) Department of Physics; Astronomy,; University of California; Riverside; (23) Centro de Astrobiolog\'ia,; CAB/CSIC-INTA; Ctra. de Torrej\'on a Ajalvir)

arXiv:2210.01140·astro-ph.GA·January 24, 2023

Optimized Photometric Redshifts for the Cosmic Assembly Near-Infrared Deep Extragalactic Legacy Survey (CANDELS)

Dritan Kodra (1, 2), Brett H. Andrews (1, 2), Jeffrey A. Newman, (1, 2), Steven L. Finkelstein (3), Adriano Fontana (4), Nimish Hathi (5),, Mara Salvato (6), Tommy Wiklind (7), Stijn Wuyts (8), Adam Broussard (9),, Nima Chartab (10), Christopher Conselice (11), M. C. Cooper (12)

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TL;DR

This paper presents a comprehensive release of optimized photometric redshifts for the CANDELS survey, introducing bias correction methods and combining PDFs to improve accuracy and reliability of redshift estimates.

Contribution

The paper introduces novel bias correction techniques and PDF combination methods that enhance the accuracy of photometric redshifts in the CANDELS survey.

Findings

01

Bias correction improves PDF accuracy.

02

Minimum f-divergence method yields best PDFs.

03

Hierarchical Bayesian method provides accurate point estimates.

Abstract

We present the first comprehensive release of photometric redshifts (photo-z's) from the Cosmic Assembly Near-Infrared Deep Extragalactic Legacy Survey (CANDELS) team. We use statistics based upon the Quantile-Quantile (Q--Q) plot to identify biases and signatures of underestimated or overestimated errors in photo-z probability density functions (PDFs) produced by six groups in the collaboration; correcting for these effects makes the resulting PDFs better match the statistical definition of a PDF. After correcting each group's PDF, we explore three methods of combining the different groups' PDFs for a given object into a consensus curve. Two of these methods are based on identifying the minimum f-divergence curve, i.e., the PDF that is closest in aggregate to the other PDFs in a set (analogous to the median of an array of numbers). We demonstrate that these techniques yield improved…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Gamma-ray bursts and supernovae · Stellar, planetary, and galactic studies