☆ 4.6 Article

Non-local bias in the halo bispectrum with primordial non-Gaussianity

JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS (2015)

Journal

JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS

Volume -, Issue 7, Pages -

Publisher

IOP Publishing Ltd

DOI: 10.1088/1475-7516/2015/07/004

Keywords

inflation; galaxy clusters

Categories

Astronomy & Astrophysics Physics, Particles & Fields

Funding

STFC Advanced Fellowship [ST/H005498/1]
STFC [ST/K00090X/1, ST/L005573/1]
STFC [ST/L005573/1, ST/H005498/1, ST/L000369/1, ST/K00090X/1] Funding Source: UKRI
Science and Technology Facilities Council [ST/L005573/1, ST/L000369/1, ST/K00090X/1, ST/H005498/1] Funding Source: researchfish

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Abstract

Primordial non-Gaussianity can lead to a scale-dependent bias in the density of collapsed halos relative to the underlying matter density. The galaxy power spectrum already provides constraints on local-type primordial non-Gaussianity complementary those from the cosmic microwave background (CMB), while the bispectrum contains additional shape information and has the potential to outperform CMB constraints in future. We develop the bias model for the halo density contrast in the presence of local-type primordial non-Gaussianity, deriving a bivariate expansion up to second order in terms of the local linear matter density contrast and the local gravitational potential in Lagrangian coordinates. Nonlinear evolution of the matter density introduces a non-local tidal term in the halo model. Furthermore, the presence of local-type non-Gaussianity in the Lagrangian frame leads to a novel non-local convective term in the Eulerian frame, that is proportional to the displacement field when going beyond the spherical collapse approximation. We use an extended Press-Schechter approach to evaluate the halo mass function and thus the halo bispectrum. We show that including these non-local terms in the halo bispectra can lead to corrections of up to 25% for some configurations, on large scales or at high redshift.

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Review Physics, Multidisciplinary

REVIEW OF PARTICLE PHYSICS

R. L. Workman, V. D. Burkert, V Crede, E. Klempt, U. Thoma, L. Tiator, K. Agashe, G. Aielli, B. C. Allanach, C. Amsler, M. Antonelli, E. C. Aschenauer, D. M. Asner, H. Baer, Sw Banerjee, R. M. Barnett, L. Baudis, C. W. Bauer, J. J. Beatty, V. Belousov, J. Beringer, A. Bettini, O. Biebel, K. M. Black, E. Blucher, R. Bonventre, V. V. Bryzgalov, O. Buchmuller, M. A. Bychkov, R. N. Cahn, M. Carena, A. Ceccucci, A. Cerri, R. Sekhar Chivukula, G. Cowan, K. Cranmer, O. Cremonesi, G. D'Ambrosio, T. Damour, D. de Florian, A. de Gouvea, T. DeGrand, P. de Jong, S. Demers, B. A. Dobrescu, M. D'Onofrio, M. Doser, H. K. Dreiner, P. Eerola, U. Egede, S. Eidelman, A. X. El-Khadra, J. Ellis, S. C. Eno, J. Erler, V. V. Ezhela, W. Fetscher, B. D. Fields, A. Freitas, H. Gallagher, Y. Gershtein, T. Gherghetta, M. C. Gonzalez-Garcia, M. Goodman, C. Grab, A. Gritsan, C. Grojean, D. E. Groom, M. Grunewald, A. Gurtu, T. Gutsche, H. E. Haber, Matthieu Hamel, C. Hanhart, S. Hashimoto, Y. Hayato, A. Hebecker, S. Heinemeyer, J. J. Hernandez-Rey, K. Hikasa, J. Hisano, A. Hocker, J. Holder, L. Hsu, J. Huston, T. Hyodo, Al Ianni, M. Kado, M. Karliner, U. F. Katz, M. Kenzie, V. A. Khoze, S. R. Klein, F. Krauss, M. Kreps, P. Krizan, B. Krusche, Y. Kwon, O. Lahav, J. Laiho, L. P. Lellouch, J. Lesgourgues, A. R. Liddle, Z. Ligeti, C-J Lin, C. Lippmann, T. M. Liss, L. Littenberg, C. Lourenco, K. S. Lugovsky, S. B. Lugovsky, A. Lusiani, Y. Makida, F. Maltoni, T. Mannel, A. Manohar, W. J. Marciano, A. Masoni, J. Matthews, U-G Meissner, I-A Melzer-Pellmann, M. Mikhasenko, D. J. Miller, D. Milstead, R. E. Mitchell, K. Moenig, P. Molaro, F. Moortgat, M. Moskovic, K. Nakamura, M. Narain, P. Nason, S. Navas, A. Nelles, M. Neubert, P. Nevski, Y. Nir, K. A. Olive, C. Patrignani, J. A. Peacock, V. A. Petrov, E. Pianori, A. Pich, A. Piepke, F. Pietropaolo, A. Pomarol, S. Pordes, S. Profumo, A. Quadt, K. Rabbertz, J. Rademacker, G. Raffelt, M. Ramsey-Musolf, B. N. Ratcliff, P. Richardson, A. Ringwald, D. J. Robinson, S. Roesler, S. Rolli, A. Romaniouk, L. J. Rosenberg, J. L. Rosner, G. Rybka, M. G. Ryskin, R. A. Ryutin, Y. Sakai, S. Sarkar, F. Sauli, O. Schneider, S. Schoenert, K. Scholberg, A. J. Schwartz, J. Schwiening, D. Scott, F. Sefkow, U. Seljak, V Sharma, S. R. Sharpe, V Shiltsev, G. Signorelli, M. Silari, F. Simon, T. Sjostrand, P. Skands, T. Skwarnicki, G. F. Smoot, A. Soffer, M. S. Sozzi, S. Spanier, C. Spiering, A. Stahl, S. L. Stone, Y. Sumino, M. J. Syphers, F. Takahashi, M. Tanabashi, J. Tanaka, M. Tasevsky, K. Terao, K. Terashi, J. Terning, R. S. Thorne, M. Titov, N. P. Tkachenko, D. R. Tovey, K. Trabelsi, P. Urquijo, G. Valencia, R. Van de Water, N. Varelas, G. Venanzoni, L. Verde, I Vivarelli, P. Vogel, W. Vogelsang, V. Vorobyev, S. P. Wakely, W. Walkowiak, C. W. Walter, D. Wands, D. H. Weinberg, E. J. Weinberg, N. Wermes, M. White, L. R. Wiencke, S. Willocq, C. G. Wohl, C. L. Woody, W-M Yao, M. Yokoyama, R. Yoshida, G. Zanderighi, G. P. Zeller, O. Zenin, R-Y Zhu, Shi-Lin Zhu, F. Zimmermann, P. A. Zyla, J. Anderson, T. Basaglia, P. Schaffner, W. Zheng

Summary: The Review provides a comprehensive summary of particle physics and cosmology, including measurements, searches for hypothetical particles, and summaries of properties and search limits. It consists of two volumes, with Summary Tables, review articles, and Particle Listings.

PROGRESS OF THEORETICAL AND EXPERIMENTAL PHYSICS (2022)

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Article Astronomy & Astrophysics

Consistent lensing and clustering in a low-S8 Universe with BOSS, DES Year 3, HSC Year 1, and KiDS-1000

A. Amon, N. C. Robertson, H. Miyatake, C. Heymans, M. White, J. DeRose, S. Yuan, R. H. Wechsler, T. N. Varga, S. Bocquet, A. Dvornik, S. More, A. J. Ross, H. Hoekstra, A. Alarcon, M. Asgari, J. Blazek, A. Campos, R. Chen, A. Choi, M. Crocce, H. T. Diehl, C. Doux, K. Eckert, J. Elvin-Poole, S. Everett, A. Ferte, M. Gatti, G. Giannini, D. Gruen, R. A. Gruendl, W. G. Hartley, K. Herner, H. Hildebrandt, S. Huang, E. M. Huff, B. Joachimi, S. Lee, N. MacCrann, J. Myles, A. Navarro-Alsina, T. Nishimichi, J. Prat, L. F. Secco, I Sevilla-Noarbe, E. Sheldon, T. Shin, T. Troster, M. A. Troxel, I Tutusaus, A. H. Wright, B. Yin, M. Aguena, S. Allam, J. Annis, D. Bacon, M. Bilicki, D. Brooks, D. L. Burke, A. Carnero Rosell, J. Carretero, F. J. Castander, R. Cawthon, M. Costanzi, L. N. da Costa, M. E. S. Pereira, J. de Jong, J. De Vicente, S. Desai, J. P. Dietrich, P. Doel, I Ferrero, J. Frieman, J. Garcia-Bellido, D. W. Gerdes, J. Gschwend, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, D. Huterer, A. Kannawadi, K. Kuehn, N. Kuropatkin, O. Lahav, M. Lima, M. A. G. Maia, J. L. Marshall, F. Menanteau, R. Miquel, J. J. Mohr, R. Morgan, J. Muir, F. Paz-Chinchon, A. Pieres, A. A. Plazas Malagon, A. Porredon, M. Rodriguez-Monroy, A. Roodman, E. Sanchez, S. Serrano, H. Shan, E. Suchyta, M. E. C. Swanson, G. Tarle, D. Thomas, C. To, Y. Zhang

Summary: We evaluate the consistency between lensing and clustering by combining measurements from Baryon Oscillation Spectroscopic Survey, DES Year 3, HSC Year 1, and KiDS-1000. Good agreement is found between these lensing data sets. Two fixed cosmologies, Planck and Lensing cosmology, are used to fit the data, and both provide an acceptable fit at large scales. However, uncertainties in baryon feedback and assembly bias hinder the full utilization of small-scale measurements.

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY (2023)

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Article Astronomy & Astrophysics

Target Selection and Validation of DESI Luminous Red Galaxies

Rongpu Zhou, Biprateep Dey, Jeffrey A. Newman, Daniel J. Eisenstein, K. Dawson, S. Bailey, A. Berti, J. Guy, Ting-Wen Lan, H. Zou, J. Aguilar, S. Ahlen, Shadab Alam, D. Brooks, A. de la Macorra, A. Dey, G. Dhungana, K. Fanning, A. Font-Ribera, S. Gontcho A. Gontcho, K. Honscheid, Mustapha Ishak, T. Kisner, A. Kovacs, A. Kremin, M. Landriau, Michael E. Levi, C. Magneville, Marc Manera, P. Martini, Aaron M. Meisner, R. Miquel, J. Moustakas, Adam D. Myers, Jundan Nie, N. Palanque-Delabrouille, W. J. Percival, C. Poppett, F. Prada, A. Raichoor, A. J. Ross, E. Schlafly, D. Schlegel, M. Schubnell, Gregory Tarle, B. A. Weaver, R. H. Wechsler, Christophe Yeche, Zhimin Zhou

Summary: The Dark Energy Spectroscopic Instrument (DESI) is conducting a five-year survey to measure the redshifts of tens of millions of galaxies and quasars. The DESI LRG sample, selected using photometry data from the DESI Legacy Imaging Surveys, shows high robustness against imaging systematics. The sample has a higher density compared to previous surveys and has a high success rate in obtaining confident redshifts.

ASTRONOMICAL JOURNAL (2023)

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Article Astronomy & Astrophysics

The DESI Survey Validation: Results from Visual Inspection of Bright Galaxies, Luminous Red Galaxies, and Emission-line Galaxies

Ting-Wen Lan, R. Tojeiro, E. Armengaud, J. Xavier Prochaska, T. M. Davis, David M. Alexander, A. Raichoor, Rongpu Zhou, Christophe Yeche, C. Balland, S. BenZvi, A. Berti, R. Canning, A. Carr, H. Chittenden, S. Cole, M. -C. Cousinou, K. Dawson, Biprateep Dey, K. Douglass, A. Edge, S. Escoffier, A. Glanville, S. Gontcho Gontcho, J. Guy, C. Hahn, C. Howlett, Ho Seong Hwang, L. Jiang, A. Kovacs, M. Mezcua, S. Moore, S. Nadathur, M. Oh, D. Parkinson, A. Rocher, A. J. Ross, V. Ruhlmann-Kleider, C. G. Sabiu, K. Said, C. Saulder, D. Sierra-Porta, B. Weiner, J. Yu, P. Zarrouk, Y. Zhang, H. Zou, S. Ahlen, S. Bailey, D. Brooks, A. P. Cooper, A. de la Macorra, A. Dey, G. Dhungana, P. Doel, S. Eftekharzadeh, K. Fanning, A. Font-Ribera, L. Garrison, E. Gaztanaga, R. Kehoe, T. Kisner, A. Kremin, M. Landriau, L. Le Guillou, Michael E. Levi, C. Magneville, Aaron M. Meisner, R. Miquel, J. Moustakas, Adam D. Myers, Jeffrey A. Newman, J. D. Nie, N. Palanque-Delabrouille, W. J. Percival, C. Poppett, F. Prada, M. Schubnell, Gregory Tarle, B. A. Weaver, K. Zhang, Zhimin Zhou

Summary: The Dark Energy Spectroscopic Instrument (DESI) Survey validated its survey design and target selections by obtaining spectroscopic measurements of approximately 2500 bright galaxies, 3500 luminous red galaxies (LRGs), and 10,000 emission-line galaxies (ELGs). The results show that the final survey design produces samples of bright galaxies, LRGs, and ELGs with purity greater than 99%. The precision of the redshift measurements is approximately 10 km/s for bright galaxies and ELGs and approximately 40 km/s for LRGs.

ASTROPHYSICAL JOURNAL (2023)

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Article Astronomy & Astrophysics

The Spectroscopic Data Processing Pipeline for the Dark Energy Spectroscopic Instrument

J. Guy, S. Bailey, A. Kremin, Shadab Alam, D. M. Alexander, C. Allende Prieto, S. BenZvi, A. S. Bolton, D. Brooks, E. Chaussidon, A. P. Cooper, K. Dawson, A. de la Macorra, A. Dey, Biprateep Dey, G. Dhungana, D. J. Eisenstein, A. Font-Ribera, J. E. Forero-Romero, E. Gaztanaga, S. Gontcho A. Gontcho, D. Green, K. Honscheid, M. Ishak, R. Kehoe, D. Kirkby, T. Kisner, Sergey E. Koposov, Ting-Wen Lan, M. Landriau, L. Le Guillou, Michael E. Levi, C. Magneville, Christopher J. Manser, P. Martini, Aaron M. Meisner, R. Miquel, J. Moustakas, Adam D. Myers, Jeffrey A. Newman, Jundan Nie, N. Palanque-Delabrouille, W. J. Percival, C. Poppett, F. Prada, A. Raichoor, C. Ravoux, A. J. Ross, E. F. Schlafly, D. Schlegel, M. Schubnell, Ray M. Sharples, Gregory Tarle, B. A. Weaver, Christophe Yeche, Rongpu Zhou, Zhimin Zhou, H. Zou

Summary: The Dark Energy Spectroscopic Instrument (DESI) is a purpose-built instrument on the 4 m Mayall Telescope at Kitt Peak National Observatory for conducting a redshift survey. With a spectroscopic data processing pipeline, DESI generates wavelength- and flux-calibrated spectra, spectroscopic classifications, and redshift measurements. The pipeline has exceeded the project's requirements for redshift performance, achieving a purity greater than 99% for all target classes.

ASTRONOMICAL JOURNAL (2023)

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Article Astronomy & Astrophysics

Target Selection and Validation of DESI Emission Line Galaxies

A. Raichoor, J. Moustakas, Jeffrey A. Newman, T. Karim, S. Ahlen, Shadab Alam, S. Bailey, D. Brooks, K. Dawson, A. de la Macorra, A. de Mattia, A. Dey, Biprateep Dey, G. Dhungana, S. Eftekharzadeh, D. J. Eisenstein, K. Fanning, A. Font-Ribera, J. Garcia-Bellido, E. Gaztanaga, S. Gontcho A. Gontcho, J. Guy, K. Honscheid, M. Ishak, R. Kehoe, T. Kisner, Anthony Kremin, Ting-Wen Lan, M. Landriau, L. Le Guillou, Michael E. Levi, C. Magneville, M. Manera, P. Martini, Aaron M. Meisner, Adam D. Myers, Jundan Nie, N. Palanque-Delabrouille, W. J. Percival, C. Poppett, F. Prada, A. J. Ross, V. Ruhlmann-Kleider, C. G. Sabiu, E. F. Schlafly, D. Schlegel, Gregory Tarle, B. A. Weaver, Christophe Yeche, Rongpu Zhou, Zhimin Zhou, H. Zou

Summary: The Dark Energy Spectroscopic Instrument (DESI) will collect approximately 40 million extragalactic redshifts to precisely constrain cosmic expansion and the growth of structure. It will cover about 80% of cosmic history and one-third of the sky. The Emission Line galaxy (ELG) sample, which comprises one-third of all DESI tracers, will be used to probe the universe within the 0.6 < z < 1.6 range, with the tightest constraints expected in the 1.1 < z < 1.6 range. The target selection for the DESI Survey Validation (SV) and Main Survey ELG samples relies on imaging from the Legacy Surveys.

ASTRONOMICAL JOURNAL (2023)

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Article Astronomy & Astrophysics

Dark energy survey year 3 results: High-precision measurement and modeling of galaxy-galaxy lensing

J. Prat, J. Blazek, C. Sanchez, I. Tutusaus, S. Pandey, J. Elvin-Poole, E. Krause, M. A. Troxel, L. F. Secco, A. Amon, J. DeRose, G. Zacharegkas, C. Chang, B. Jain, N. MacCrann, Y. Park, E. Sheldon, G. Giannini, S. Bocquet, C. To, A. Alarcon, O. Alves, F. Andrade-Oliveira, E. Baxter, K. Bechtol, M. R. Becker, G. M. Bernstein, H. Camacho, A. Campos, A. Carnero Rosell, M. Carrasco Kind, R. Cawthon, R. Chen, A. Choi, J. Cordero, M. Crocce, C. Davis, J. De Vicente, H. T. Diehl, S. Dodelson, C. Doux, A. Drlica-Wagner, K. Eckert, T. F. Eifler, F. Elsner, S. Everett, X. Fang, A. Farahi, A. Ferte, P. Fosalba, O. Friedrich, M. Gatti, D. Gruea, R. A. Gruendl, I. Harrison, W. G. Hartley, K. Herner, H. Huang, E. M. Huff, D. Huterer, M. Jarvis, N. Kuropatkin, P-F. Leget, P. Lemos, A. R. Liddle, J. McCullough, J. Muir, J. Myles, A. Navarro-Alsina, A. Porredon, M. Raveri, M. Rodriguez-Monroy, R. P. Rollins, A. Roodman, R. Rosenfeld, A. J. Ross, E. S. Rykoff, J. Sanchez, I Sevilla-Noarbe, T. Shin, A. Troja, T. N. Varga, N. Weaverdyck, R. H. Wechsler, B. Yanny, B. Yin, J. Zuntz, T. M. C. Abbott, M. Aguena, S. Allam, J. Annis, D. Bacon, D. Brooks, D. L. Burke, J. Carretero, C. Conselice, M. Costanzi, L. N. da Costa, M. E. S. Pereira, S. Desai, J. P. Dietrich, P. Doel, A. E. Evrard, I. Ferrero, B. Flaugher, J. Frieman, J. Garcia-Bellido, E. Gaztanaga, D. W. Gerdes, T. Giannantonio, J. Gschwend, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, D. J. James, K. Kuehn, O. Lahav, H. Lin, M. A. G. Maia, J. L. Marshall, P. Martini, P. Melchior, F. Menanteau, C. J. Miller, R. Miquel, J. J. Mohr, R. Morgan, R. L. C. Ogando, A. Palmese, F. Paz-Chinchon, D. Petravick, A. A. Plazas Malagon, E. Sanchez, S. Serrano, M. Smith, M. Soares-Santos, E. Suchyta, G. Tarle, D. Thomas, J. Weller

Summary: We present and characterize the galaxy-galaxy lensing signal measured using the first three years of data from the Dark Energy Survey. This study combines weak lensing and galaxy clustering information and uses two lens samples: a magnitude-limited sample and the redMaGiC sample. The results show that our modeling and systematic-error control are accurate at the percent-level statistical precision.

PHYSICAL REVIEW D (2022)

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Article Astronomy & Astrophysics

Dark Energy Survey Year 3 results: calibration of lens sample redshift distributions using clustering redshifts with BOSS/eBOSS

R. Cawthon, J. Elvin-Poole, A. Porredon, M. Crocce, G. Giannini, M. Gatti, A. J. Ross, E. S. Rykoff, A. Carnero Rosell, J. DeRose, S. Lee, M. Rodriguez-Monroy, A. Amon, K. Bechtol, J. De Vicente, D. Gruen, R. Morgan, E. Sanchez, J. Sanchez, I Sevilla-Noarbe, T. M. C. Abbott, M. Aguena, S. Allam, J. Annis, S. Avila, D. Bacon, E. Bertin, D. Brooks, D. L. Burke, M. Carrasco Kind, J. Carretero, F. J. Castander, A. Choi, M. Costanzi, L. N. da Costa, M. E. S. Pereira, K. Dawson, S. Desai, H. T. Diehl, K. Eckert, S. Everett, I Ferrero, P. Fosalba, J. Frieman, J. Garcia-Bellido, E. Gaztanaga, R. A. Gruendl, J. Gschwend, G. Gutierrez, S. R. Hinton, D. Hollowood, K. Honscheid, D. Huterer, D. J. James, A. G. Kim, J-P Kneib, K. Kuehn, N. Kuropatkin, O. Lahav, M. Lima, H. Lin, M. A. G. Maia, P. Melchior, F. Menanteau, R. Miquel, J. J. Mohr, J. Muir, J. Myles, A. Palmese, S. Pandey, F. Paz-Chinchon, W. J. Percival, A. A. Plazas, A. Roodman, G. Rossi, V Scarpine, S. Serrano, M. Smith, M. Soares-Santos, E. Suchyta, M. E. C. Swanson, G. Tarle, C. To, M. A. Troxel, R. D. Wilkinson

Summary: This study presents clustering redshift measurements for the Dark Energy Survey (DES) lens sample galaxies used in weak gravitational lensing and galaxy clustering studies. The methodology is validated in simulations and applied to estimate the redshift distribution for different photometrically selected bins. The results have important implications for calibrating the photometric redshift distributions used in companion papers for DES Year 3 results.

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY (2022)

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Article Astronomy & Astrophysics

Dark Energy Survey Year 3 results: A 2.7% measurement of baryon acoustic oscillation distance scale at redshift 0.835

T. M. C. Abbott, M. Aguena, S. Allam, A. Amon, F. Andrade-Oliveira, J. Asorey, S. Avila, G. M. Bernstein, E. Bertin, A. Brandao-Souza, D. Brooks, D. L. Burke, J. Calcino, H. Camacho, A. Carnero Rosell, D. Carollo, M. Carrasco Kind, J. Carretero, F. J. Castander, R. Cawthon, K. C. Chan, A. Choi, C. Conselice, M. Costanzi, M. Crocce, L. N. da Costa, M. E. S. Pereira, T. M. Davis, J. De Vicente, S. Desai, H. T. Diehl, P. Doel, K. Eckert, J. Elvin-Poole, S. Everett, A. E. Evrard, X. Fang, I Ferrero, A. Ferte, B. Flaugher, P. Fosalba, J. Garcia-Bellido, E. Gaztanaga, D. W. Gerdes, T. Giannantonio, K. Glazebrook, D. Gomes, D. Gruen, R. A. Gruendl, J. Gschwend, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, D. Huterer, B. Jain, D. J. James, T. Jeltema, N. Kokron, E. Krause, K. Kuehn, O. Lahav, G. F. Lewis, C. Lidman, M. Lima, H. Lin, M. A. G. Maia, U. Malik, P. Martini, P. Melchior, J. Mena-Fernandez, F. Menanteau, R. Miquel, J. J. Mohr, R. Morgan, J. Muir, J. Myles, A. Moller, A. Palmese, F. Paz-Chinchon, W. J. Percival, A. Pieres, A. A. Plazas Malagon, A. Porredon, J. Prat, K. Reil, M. Rodriguez-Monroy, A. K. Romer, A. Roodman, R. Rosenfeld, A. J. Ross, E. Sanchez, D. Sanchez Cid, V Scarpine, S. Serrano, I Sevilla-Noarbe, E. Sheldon, M. Smith, M. Soares-Santos, E. Suchyta, M. E. C. Swanson, G. Tarle, D. Thomas, C. To, M. A. Troxel, B. E. Tucker, D. L. Tucker, I Tutusaus, S. A. Uddin, T. N. Varga, J. Weller, R. D. Wilkinson

Summary: In this study, we present the most precise measurement of the angular diameter using baryon acoustic oscillations (BAO) in Dark Energy Survey (DES) data. The analysis includes improvements in sample selection, area coverage, and redshift, as well as validation using simulations. The results provide important constraints on cosmological parameters.

PHYSICAL REVIEW D (2022)

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Article Astronomy & Astrophysics

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

A. Amon, D. Gruen, M. A. Troxel, N. MacCrann, S. Dodelson, A. Choi, C. Doux, L. F. Secco, S. Samuroff, E. Krause, J. Cordero, J. Myles, J. DeRose, R. H. Wechsler, M. Gatti, A. Navarro-Alsina, G. M. Bernstein, B. Jain, J. Blazek, A. Alarcon, A. Ferte, P. Lemos, M. Raveri, A. Campos, J. Prat, C. Sanchez, M. Jarvis, O. Alves, F. Andrade-Oliveira, E. Baxter, K. Bechtol, M. R. Becker, S. L. Bridle, H. Camacho, A. Carnero Rosell, M. Carrasco Kind, R. Cawthon, C. Chang, R. Chen, P. Chintalapati, M. Crocce, C. Davis, H. T. Diehl, A. Drlica-Wagner, K. Eckert, T. F. Eifler, J. Elvin-Poole, S. Everett, X. Fang, P. Fosalba, O. Friedrich, E. Gaztanaga, G. Giannini, R. A. Gruendl, I Harrison, W. G. Hartley, K. Herner, H. Huang, E. M. Huff, D. Huterer, N. Kuropatkin, P. Leget, A. R. Liddle, J. McCullough, J. Muir, S. Pandey, Y. Park, A. Porredon, A. Refregier, R. P. Rollins, A. Roodman, R. Rosenfeld, A. J. Ross, E. S. Rykoff, J. Sanchez, I Sevilla-Noarbe, E. Sheldon, T. Shin, A. Troja, I Tutusaus, I Tutusaus, T. N. Varga, N. Weaverdyck, B. Yanny, B. Yin, Y. Zhang, J. Zuntz, M. Aguena, S. Allam, J. Annis, D. Bacon, E. Bertin, S. Bhargava, D. Brooks, E. Buckley-Geer, D. L. Burke, J. Carretero, M. Costanzi, L. N. da Costa, M. E. S. Pereira, J. De Vicente, S. Desai, J. P. Dietrich, P. Doel, I Ferrero, B. Flaugher, J. Frieman, J. Garcia-Bellido, E. Gaztanaga, D. W. Gerdes, T. Giannantonio, J. Gschwend, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, B. Hoyle, D. J. James, R. Kron, K. Kuehn, O. Lahav, M. Lima, H. Lin, M. A. G. Maia, J. L. Marshall, P. Martini, P. Melchior, F. Menanteau, R. Miquel, J. J. Mohr, R. Morgan, R. L. C. Ogando, A. Palmese, F. Paz-Chinchon, D. Petravick, A. Pieres, A. K. Romer, E. Sanchez, V Scarpine, M. Schubnell, S. Serrano, M. Smith, M. Soares-Santos, G. Tarle, D. Thomas, C. To, J. Weller

Summary: This work presents the Dark Energy Survey Year 3 cosmic-shear measurements and cosmological constraints based on an analysis of over 100 million source galaxies, while a companion paper provides further details. The measurements are consistent with the Λ CDM model and yield precise results for the clustering amplitude and S-8. The low-redshift measurements agree with the Planck Cosmic Microwave Background result, but the high-redshift prediction is lower. The measurements demonstrate internal consistency and robustness to calibration systematics and blending of galaxies. The precision of the cosmological constraints is mainly limited by modeling baryonic effects and intrinsic alignments.

PHYSICAL REVIEW D (2022)

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Review Astronomy & Astrophysics

Dark Energy Survey Year 3 results: Cosmology from cosmic shear and robustness to modeling uncertainty

L. F. Secco, S. Samuroff, E. Krause, B. Jain, J. Blazek, M. Raveri, A. Campos, A. Amon, A. Chen, C. Doux, A. Choi, D. Gruen, G. M. Bernstein, C. Chang, J. DeRose, J. Myles, A. Ferte, P. Lemos, D. Huterer, J. Prat, M. A. Troxel, N. MacCrann, A. R. Liddle, T. Kacprzak, X. Fang, C. Sanchez, S. Pandey, S. Dodelson, P. Chintalapati, K. Hoffmann, A. Alarcon, O. Alves, F. Andrade-Oliveira, E. J. Baxter, K. Bechtol, M. R. Becker, A. Brandao-Souza, H. Camacho, A. Carnero Rosell, M. Carrasco Kind, R. Cawthon, J. P. Cordero, M. Crocce, C. Davis, E. Di Valentino, A. Drlica-Wagner, K. Eckert, T. F. Eifler, M. Elidaiana, F. Elsner, J. Elvin-Poole, S. Everett, P. Fosalba, O. Friedrich, M. Gatti, G. Giannini, R. A. Gruendl, I Harrison, W. G. Hartley, K. Herner, H. Huang, E. M. Huff, M. Jarvis, N. Jeffrey, N. Kuropatkin, P-F Leget, J. Muir, J. Mccullough, A. Navarro Alsina, Y. Omori, Y. Park, A. Porredon, R. Rollins, A. Roodman, R. Rosenfeld, A. J. Ross, E. S. Rykoff, J. Sanchez, I Sevilla-Noarbe, E. S. Sheldon, T. Shin, I Tutusaus, T. N. Varga, N. Weaverdyck, R. H. Wechsler, B. Yanny, B. Yin, Y. Zhang, J. Zuntz, T. M. C. Abbott, M. Aguena, S. Allam, J. Annis, D. Bacon, E. Bertin, S. Bhargava, S. L. Bridle, D. Brooks, E. Buckley-Geer, D. L. Burke, J. Carretero, M. Costanzi, L. N. da Costa, J. De Vicente, H. T. Diehl, J. P. Dietrich, P. Doel, I Ferrero, B. Flaugher, J. Frieman, J. Garcia-Bellido, E. Gaztanaga, D. W. Gerdes, T. Giannantonio, J. Gschwend, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, B. Hoyle, D. J. James, T. Jeltema, K. Kuehn, O. Lahav, M. Lima, H. Lin, M. A. G. Maia, J. L. Marshall, P. Martini, P. Melchior, F. Menanteau, R. Miquel, J. J. Mohr, R. Morgan, R. L. C. Ogando, A. Palmese, F. Paz-Chinchon, D. Petravick, A. Pieres, A. A. Plazas Malagon, M. Rodriguez-Monroy, A. K. Romer, E. Sanchez, V Scarpine, M. Schubnell, D. Scolnic, S. Serrano, M. Smith, M. Soares-Santos, E. Suchyta, M. E. C. Swanson, G. Tarle, D. Thomas, C. To

Summary: This paper presents cosmic shear measurements and cosmological constraints from the Darki Energy Survey (DES) Year 3 data, using over 100 million source galaxies. The lensing amplitude parameter S-8 is constrained at the 3% level in the ΛCDM model, and the robustness of the results to modeling of intrinsic alignments is explored. Constraints from other weak lensing experiments and the Cosmic Microwave Background (CMB) are compared, and the statistical preference for different complexity intrinsic alignment models is examined.

PHYSICAL REVIEW D (2022)

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