Dark Energy Survey Year 3 Results: Photometric Data Set for Cosmology

I.Sevilla-Noarbe (1); K.Bechtol (2); M.Carrasco Kind (3; 4),; A.Carnero Rosell (1; 5; 6); M.R.Becker (7); A.Drlica-Wagner (8; 9; and 10); R.A.Gruendl (3; 4); E.S.Rykoff (11; 12); E.Sheldon (13),; B.Yanny (9); A.Alarcon (7; 14; 15); S.Allam (9); A.Amon (11),; A.Benoit-L\'evy (16; 17; 18); G.M.Bernstein (19); E.Bertin (16; 18),; D.L.Burke (11; 12); J.Carretero (20; 21); A.Choi (22); H.T.Diehl (9),; S.Everett (23); B.Flaugher (9); E.Gaztanaga (14; 15); J.Gschwend (24 and; 25); I.Harrison (26); W.G.Hartley (27); B.Hoyle (28; 29; 30); M.Jarvis; (19); M.D.Johnson (4); R.Kessler (8; 10); R.Kron (9; 10); N.Kuropatkin; (9); B.Leistedt (31); T.S.Li (32; 33); F.Menanteau (3; 4); E.Morganson; (4); R.L.C.Ogando (25); A.Palmese (9; 10); F.Paz-Chinch\'on (34; 4),; A.Pieres (24; 25); C.Pond (4); M.Rodriguez-Monroy (1); J.Allyn-Smith (35),; K.M.Stringer (36); M.A.Troxel (37); D.L.Tucker (9); J. de Vicente (1),; W.Wester (9); Y.Zhang (1); T. M.C.Abbott (38); M.Aguena (39; 24); J.Annis; (9); S.Avila (40); S.Bhargava (41); S.L.Bridle (26); D.Brooks (17); D.Brout; (42; 43); F.J.Castander (14; 15); R.Cawthon (2); C.Chang (8; 10),; C.Conselice (26; 44); M.Costanzi (45; 46); M.Crocce (14; 15); L.N.; da Costa (24; 25); M.E.E.Pereira (47); T.M.Davis (48); S. Desai (49),; J.P.Dietrich (28); P.Doel (17); K.Eckert (19); A.E.Evrard (50; 47),; I.Ferrero (51); P. Fosalba (14; 15); J.Garc\'ia-Bellido (40); D.W.Gerdes; (50; 47); T.Giannantonio (34; 52); D.Gruen (53; 11; 12),; G.Gutierrez (9); S.R.Hinton (48); D.L.Hollowood (23); K.Honscheid (22 and; 54); E.M.Huff (55); D.Huterer (47); D.J.James (43); T.Jeltema (23); K.Kuehn; (56; 57); O.Lahav (17); C.Lidman (58; 59); M.Lima (39; 24); H.Lin; (9); M.A.G.Maia (24; 25); J.L.Marshall (36); P.Martini (22; 60; 61),; P.Melchior (32); R.Miquel (62; 20); J.J.Mohr (28; 29); R.Morgan (2),; E.Neilsen (9); A.A.Plazas (32); A.K.Romer (41); A.Roodman (11; 12),; E.Sanchez (1); V.Scarpine (9); M.Schubnell (47); S.Serrano (14; 15),; M.Smith (63); E. Suchyta (64); G.Tarle (47); D.Thomas (65); C.To (53; 11; and 12); T.N.Varga (29; 30); R.H. Wechsler (53; 11; 12); J.Weller; (29; 30); R.D.Wilkinson (41) (the DES Collaboration) ((1) Centro de; Investigaciones Energ\'eticas; Medioambientales y Tecnol\'ogicas (CIEMAT),; Madrid; Spain; (2) Physics Department; University of Wisconsin-Madison,; Madison; WI; USA; (3) Department of Astronomy; University of Illinois at; Urbana-Champaign; Urbana; IL; USA; (4) National Center for Supercomputing; Applications; Urbana; IL; USA; (5) Instituto de Astrof\'isica de Canarias; La; Laguna; Tenerife; Spain; (6) Universidad de La Laguna; Dpto. Astrof\'isica,; La Laguna; Tenerife; Spain; (7) HEP Division; Argonne National Laboratory,; Lemont; IL; USA; (8) Department of Astronomy; Astrophysics; University of; Chicago; Chicago; IL; USA; (9) Fermi National Accelerator Laboratory,; Batavia; IL; USA; (10) Kavli Institute for Cosmological Physics; University; of Chicago; Chicago; IL; USA; (11) Kavli Institute for Particle Astrophysics; & Cosmology; Stanford University; Stanford; CA; USA; (12) SLAC National; Accelerator Laboratory; Menlo Park; CA; USA; (13) Brookhaven National; Laboratory; Upton; NY; USA; (14) Institut d'Estudis Espacials de Catalunya; (IEEC); Barcelona; Spain; (15) Institute of Space Sciences (ICE; CSIC),; Campus UAB; Barcelona; Spain; (16) CNRS; Institut d'Astrophysique de Paris,; Paris; France; (17) Department of Physics & Astronomy; University College; London; London; UK; (18) Sorbonne Universit\'es; UPMC Univ Paris 06; Institut; d'Astrophysique de Paris; Paris; France; (19) Department of Physics and; Astronomy; University of Pennsylvania; Philadelphia; PA; USA; (20) Institut; de F\'isica d'Altes Energies (IFAE); The Barcelona Institute of Science and; Technology; Bellaterra (Barcelona); Spain; (21) Port d'Informaci\'o; Cient\'ifica (PIC); Bellaterra (Barcelona); Spain; (22) Center for Cosmology; and Astro-Particle Physics; The Ohio State University; Columbus; OH; USA,; (23) Santa Cruz Institute for Particle Physics; Santa Cruz; CA; USA; (24); Laborat\'orio Interinstitucional de e-Astronomia - LIneA; Rio de Janeiro,; Brazil; (25) Observat\'orio Nacional; Rio de Janeiro; Brazil; (26) Jodrell; Bank Center for Astrophysics; School of Physics; Astronomy; University of; Manchester; Manchester; UK; (27) D\'epartement de Physique Th\'eorique and; Center for Astroparticle Physics; Universit\'e de Gen\`eve; Geneva,; Switzerland; (28) Faculty of Physics; Ludwig-Maximilians-Universit\"at,; Munich; Germany; (29) Max Planck Institute for Extraterrestrial Physics,; Garching; Germany; (30) Universit\"ats-Sternwarte; Fakult\"at f\"ur Physik,; Ludwig-Maximilians Universit\"at M\"unchen; M\"unchen; Germany; (31) New York; University; CCPP; New York; NY; USA; (32) Department of Astrophysical; Sciences; Princeton University; Peyton Hall; Princeton; NJ; USA; (33); Observatories of the Carnegie Institution for Science; Pasadena; CA; USA,; (34) Institute of Astronomy; University of Cambridge; Cambridge; UK; (35); Austin Peay State University; Dept. Physics; Engineering; Astronomy,; Clarksville; TN; USA; (36) George P.; Cynthia Woods Mitchell Institute for; Fundamental Physics; Astronomy; and Department of Physics; Astronomy,; Texas A&M University; College Station; TX; USA; (37) Department of Physics,; Duke University Durham; NC; USA; (38) Cerro Tololo Inter-American; Observatory; NSF National Optical-Infrared Astronomy Research Laboratory; La; Serena; Chile; (39) Departamento de F\'isica Matem\'atica; Instituto de; F\'isica; Universidade de S\~ao Paulo; S\~ao Paulo; SP; Brazil; (40); Instituto de Fisica Teorica UAM/CSIC; Universidad Autonoma de Madrid; Madrid,; Spain; (41) Department of Physics; Astronomy; Pevensey Building,; University of Sussex; Brighton; UK; (42) NASA Einstein Fellow; (43) Center; for Astrophysics | Harvard & Smithsonian; Cambridge; MA; USA; (44) University; of Nottingham; School of Physics; Astronomy; Nottingham; UK; (45); INAF-Osservatorio Astronomico di Trieste; Trieste; Italy; (46) Institute for; Fundamental Physics of the Universe; Trieste; Italy; (47) Department of; Physics; University of Michigan; Ann Arbor; MI; USA; (48) School of; Mathematics; Physics; University of Queensland; Brisbane; Australia; (49); Department of Physics; IIT Hyderabad; Kandi; Telangana; India; (50); Department of Astronomy; University of Michigan; Ann Arbor; MI; USA (51); Institute of Theoretical Astrophysics; University of Oslo; Blindern; Oslo,; Norway; (52) Kavli Institute for Cosmology; University of Cambridge,; Cambridge; UK; (53) Department of Physics; Stanford University; Stanford; CA,; USA; (54) Department of Physics; The Ohio State University; Columbus; OH,; USA; (55) Jet Propulsion Laboratory; California Institute of Technology,; Pasadena; CA; USA; (56) Australian Astronomical Optics; Macquarie University,; North Ryde; Australia; (57) Lowell Observatory; Flagstaff; AZ; USA; (58); Centre for Gravitational Astrophysics; College of Science; The Australian; National University; Australia; (59) The Research School of Astronomy and; Astrophysics; Australian National University; Australia; (60) Department of; Astronomy; The Ohio State University; Columbus; USA; (61) Radcliffe Institute; for Advanced Study; Harvard University; Cambridge; MA; USA; (62) Instituci\'o; Catalana de Recerca i Estudis Avan\c{c}ats; Barcelona; Spain; (63) School of; Physics; Astronomy; University of Southampton; Southampton; UK; (64); Computer Science; Mathematics Division; Oak Ridge National Laboratory; Oak; Ridge; TN; USA; (65) Institute of Cosmology; Gravitation; University of; Portsmouth; Portsmouth; UK)

arXiv:2011.03407·astro-ph.CO·May 28, 2021

Dark Energy Survey Year 3 Results: Photometric Data Set for Cosmology

I.Sevilla-Noarbe (1), K.Bechtol (2), M.Carrasco Kind (3, 4),, A.Carnero Rosell (1, 5, 6), M.R.Becker (7), A.Drlica-Wagner (8, 9, and 10), R.A.Gruendl (3, 4), E.S.Rykoff (11, 12), E.Sheldon (13),, B.Yanny (9), A.Alarcon (7, 14, 15), S.Allam (9), A.Amon (11),, A.Benoit-L\'evy (16

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TL;DR

The paper presents the third-year photometric data set from the Dark Energy Survey, offering an expanded, calibrated, and high-quality dataset for cosmology and astrophysics research, with significant improvements over previous releases.

Contribution

It introduces the Y3 Gold data set with enhanced calibration, larger coverage, better object classification, and comprehensive metadata, advancing the utility for cosmological analyses.

Findings

01

Nearly 5000 sq. degrees of imaging data

02

Photometric residuals reduced by 50% compared to previous release

03

Star-galaxy classification efficiency >98%, purity >99%

Abstract

We describe the Dark Energy Survey (DES) photometric data set assembled from the first three years of science operations to support DES Year 3 cosmology analyses, and provide usage notes aimed at the broad astrophysics community. Y3 Gold improves on previous releases from DES, Y1 Gold and Data Release 1 (DES DR1), presenting an expanded and curated data set that incorporates algorithmic developments in image detrending and processing, photometric calibration, and object classification. Y3 Gold comprises nearly 5000 square degrees of grizY imaging in the south Galactic cap, including nearly 390 million objects, with depth reaching S/N ~ 10 for extended objects up to $i_{A B} \sim 23.0$ , and top-of-the-atmosphere photometric uniformity $< 3$ mmag. Compared to DR1, photometric residuals with respect to Gaia are reduced by $50%$ , and per-object chromatic corrections are introduced. Y3 Gold…

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