Dark Energy Survey Year 3 results: Cosmology from cosmic shear and robustness to data calibration

被引：266

作者：

Amon, A. ^{[1
]}

Gruen, D. ^{[1
,2
,3
]}

Troxel, M. A. ^{[4
]}

MacCrann, N. ^{[5
]}

Dodelson, S. ^{[6
]}

Choi, A. ^{[7
]}

Doux, C. ^{[8
]}

Secco, L. F. ^{[8
,9
]}

Samuroff, S. ^{[6
]}

Krause, E. ^{[10
]}

Cordero, J. ^{[11
]}

Myles, J. ^{[1
,2
,3
]}

DeRose, J. ^{[12
]}

Wechsler, R. H. ^{[1
,2
,3
]}

Gatti, M. ^{[8
]}

Navarro-Alsina, A. ^{[13
,14
]}

Bernstein, G. M. ^{[8
]}

Jain, B. ^{[8
]}

Blazek, J. ^{[7
,15
]}

Alarcon, A. ^{[16
]}

Ferte, A. ^{[17
]}

Lemos, P. ^{[18
,19
]}

Raveri, M. ^{[8
]}

Campos, A. ^{[6
]}

Prat, J. ^{[20
]}

Sanchez, C. ^{[8
]}

Jarvis, M. ^{[8
]}

Alves, O. ^{[14
,21
,22
]}

Andrade-Oliveira, F. ^{[14
,22
]}

Baxter, E. ^{[23
]}

Bechtol, K. ^{[24
]}

Becker, M. R. ^{[16
]}

Bridle, S. L. ^{[11
]}

Camacho, H. ^{[14
,22
]}

Carnero Rosell, A. ^{[14
,25
,26
]}

Carrasco Kind, M. ^{[27
,28
]}

Cawthon, R. ^{[24
]}

Chang, C. ^{[9
,20
]}

Chen, R. ^{[4
]}

Chintalapati, P. ^{[29
]}

Crocce, M. ^{[30
,31
]}

Davis, C. ^{[1
]}

Diehl, H. T. ^{[29
]}

Drlica-Wagner, A. ^{[9
,20
,29
]}

Eckert, K. ^{[8
]}

Eifler, T. F. ^{[10
,17
]}

Elvin-Poole, J. ^{[7
,32
]}

Everett, S. ^{[33
]}

Fang, X. ^{[10
]}

Fosalba, P. ^{[30
,31
]}

机构：

[1] Stanford Univ, Kavli Inst Particle Astrophys & Cosmol, POB 2450, Stanford, CA 94305 USA

[2] Stanford Univ, Dept Phys, 382 Via Pueblo Mall, Stanford, CA 94305 USA

[3] SLAC Natl Accelerator Lab, Menlo Pk, CA 94025 USA

[4] Duke Univ, Dept Phys, Durham, NC 27708 USA

[5] Univ Cambridge, Dept Appl Math & Theoret Phys, Cambridge CB3 0WA, England

[6] Carnegie Mellon Univ, Dept Phys, Pittsburgh, PA 15312 USA

[7] Ohio State Univ, Ctr Cosmol & Astroparticle Phys, Columbus, OH 43210 USA

[8] Univ Penn, Dept Phys & Astron, Philadelphia, PA 19104 USA

[9] Univ Chicago, Kavli Inst Cosmol Phys, Chicago, IL 60637 USA

[10] Univ Arizona, Dept Astron, Steward Observ, 933 North Cherry Ave, Tucson, AZ 85721 USA

[11] Univ Manchester, Jodrell Bank Ctr Astrophys, Sch Phys & Astron, Oxford Rd, Manchester M13 9PL, Lancs, England

[12] Lawrence Berkeley Natl Lab, 1 Cyclotron Rd, Berkeley, CA 94720 USA

[13] Univ Estadual Campinas, Inst Fis Gleb Wataghin, BR-13083859 Campinas, SP, Brazil

[14] Lab Interinst E Astron, Rua Gal Jose Cristino 77, BR-20921400 Rio De Janeiro, RJ, Brazil

[15] Ecole Polytech Fed Lausanne EPFL, Observ Sauverny, Lab Astrophys, Inst Phys, CH-1290 Versoix, Switzerland

[16] Argonne Natl Lab, 9700 South Cass Ave, Lemont, IL 60439 USA

[17] CALTECH, Jet Prop Lab, 4800 Oak Grove Dr, Pasadena, CA 91109 USA

[18] UCL, Dept Phys & Astron, Gower St, London WC1E 6BT, England

[19] Univ Sussex, Dept Phys & Astron, Pevensey Bldg, Brighton BN1 9QH, E Sussex, England

[20] Univ Chicago, Dept Astron & Astrophys, Chicago, IL 60637 USA

[21] Univ Michigan, Dept Phys, Ann Arbor, MI 48109 USA

[22] Univ Estadual Paulista, Inst Fis Teor, Sao Paulo, Brazil

[23] Dept Phys & Astron, Watanabe 416,2505 Correa Rd, Honolulu, HI 96822 USA

[24] Univ Wisconsin, Phys Dept, 2320 Chamberlin Hall,1150 Univ Ave, Madison, WI 53706 USA

[25] Inst Astrofis Canarias, E-38205 Tenerife, Spain

[26] Univ La Laguna, Dept Astrofis, E-38206 Tenerife, Spain

[27] Natl Ctr Supercomp Applicat, Ctr Astrophys Surveys, 1205 West Clark St, Urbana, IL 61801 USA

[28] Univ Illinois, Dept Astron, 1002 W Green St, Urbana, IL 61801 USA

[29] Fermilab Natl Accelerator Lab, POB 500, Batavia, IL 60510 USA

[30] Inst Estudis Espacials Catalunya IEEC, Barcelona 08034, Spain

[31] CSIC, Inst Space Sci ICE, Campus UAB, Barcelona 08193, Spain

[32] Ohio State Univ, Dept Phys, Columbus, OH 43210 USA

[33] Santa Cruz Inst Particle Phys, Santa Cruz, CA 95064 USA

[34] Univ Cambridge, Kavli Inst Cosmol, Madingley Rd, Cambridge CB3 0HA, England

[35] Barcelona Inst Sci & Technol, Inst Fis Altes Energies IFAE, Campus UAB, Bellaterra 08193, Spain

[36] Univ Oxford, Dept Phys, Denys Wilkinson Bldg,Keble Rd, Oxford OX1 3RH, England

[37] Univ Geneva, Dept Astron, Ch Ecogia 16, CH-1290 Versoix, Switzerland

[38] Univ Arizona, Dept Phys, Tucson, AZ 85721 USA

[39] Univ Edinburgh, Inst Astron, Edinburgh EH9 3HJ, Midlothian, Scotland

[40] Univ Lisbon, Fac Ciencias, Inst Astrofis & Ciencias Espaxo, P-1769016 Lisbon, Portugal

[41] Perimeter Inst Theoret Phys, 31 Caroline St North, Waterloo, ON N2L 2Y5, Canada

[42] Univ Tokyo, Kavli Inst Phys & Math Universe WPI, Chiba 2778583, Japan

[43] Swiss Fed Inst Technol, Dept Phys, Wolfgang Pauli Str 16, CH-8093 Zurich, Switzerland

[44] Univ Estadual Paulista, ICTP South Amer Inst Fundamental Res, Inst Fis Teor, Sao Paulo, Brazil

[45] Ctr Invest Energet Medioambientales & Tecnol CIEM, Madrid, Spain

[46] Brookhaven Natl Lab, Bldg 510, Upton, NY 11973 USA

[47] Max Planck Inst Extraterr Phys, Giessenbachstr, D-85748 Garching, Germany

[48] Ludwig Maximilians Univ Munchen, Fak Phys, Univ Sternwarte, Scheinerstr 1, D-81679 Munich, Germany

[49] Univ Portsmouth, Inst Cosmol & Gravitat, Portsmouth PO1 3FX, Hants, England

[50] Inst Astrophys Paris, CNRS, UMR 7095, F-75014 Paris, France

来源：

PHYSICAL REVIEW D | 2022年 / 105卷 / 02期

基金：

英国科学技术设施理事会;

关键词：

WEAK-LENSING SURVEYS; MICROWAVE BACKGROUND ANISOTROPIES; 2-POINT CORRELATION-FUNCTIONS; MATTER POWER SPECTRUM; LARGE-SCALE STRUCTURE; REDSHIFT DISTRIBUTIONS; PARAMETER CONSTRAINTS; INTRINSIC CORRELATION; INTERNAL CONSISTENCY; SYSTEMATIC-ERRORS;

D O I：

10.1103/PhysRevD.105.023514

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

This work, together with its companion paper, Secco, Samuroff et al. [Phys. Rev. D 105, 023515 (2022)], present the Dark Energy Survey Year 3 cosmic-shear measurements and cosmological constraints based on an analysis of over 100 million source galaxies. With the data spanning 4143 deg(2) on the sky, divided into four redshift bins, we produce a measurement with a signal-to-noise of 40. We conduct a blind analysis in the context of the Lambda-Cold Dark Matter (Lambda CDM) model and find a 3% constraint of the clustering amplitude, S-8 sigma(8)(Omega(m)/0.3)(0.5) = 0.759(-0.023)(+0.025). A Lambda CDM-Optimized analysis, which safely includes smaller scale information, yields a 2% precision measurement of S-8 = 0.772(-0.017)(+0.018) that is consistent with the fiducial case. The two low-redshift measurements are statistically consistent with the Planck Cosmic Microwave Background result, however, both recovered S-8 values are lower than the high-redshift prediction by 2.3 sigma and 2.1 sigma (p-values of 0.02 and 0.05), respectively. The measurements are shown to be internally consistent across redshift bins, angular scales and correlation functions. The analysis is demonstrated to be robust to calibration systematics, with the S-8 posterior consistent when varying the choice of redshift calibration sample, the modeling of redshift uncertainty and methodology. Similarly, we find that the corrections included to account for the blending of galaxies shifts our best-fit S-8 by 0.5 sigma without incurring a substantial increase in uncertainty. We examine the limiting factors for the precision of the cosmological constraints and find observational systematics to be subdominant to the modeling of astrophysics. Specifically, we identify the uncertainties in modeling baryonic effects and intrinsic alignments as the limiting systematics.

引用

页数：43

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