Cosmological lensing ratios with des Y1, SPT, and Planck

Correlations between tracers of the matter density field and gravitational lensing are sensitive to the evolution of the matter power spectrum and the expansion rate across cosmic time. Appropriately defined ratios of such correlation functions, on the other hand, depend only on the angular diameter...

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Main Authors: Prat, J, Baxter, E, Shin, T, Sánchez, C, Chang, C, Jain, B, Miquel, R, Alarcon, A, Bacon, D, Bernstein, GM, Cawthon, R, Crawford, TM, Davis, C, De Vicente, J, Dodelson, S, Eifler, TF, Friedrich, O, Gatti, M, Gruen, D, Hartley, WG, Holder, GP, Hoyle, B, Jarvis, M, Krause, E, MacCrann, N, Mawdsley, B, Nicola, A, Omori, Y, Pujol, A, Rau, MM, Reichardt, CL, Samuroff, S, Sheldon, E, Troxel, MA, Vielzeuf, P, Zuntz, J, Abbott, TMC, Abdalla, FB, Annis, J, Avila, S, Aylor, K, Benson, BA, Bertin, E, Bleem, LE, Brooks, D, Burke, DL, Carlstrom, JE, Carrasco Kind, M, Carretero, J, Chang, CL, Cho, HM, Chown, R, Crites, AT, Cunha, CE, Da Costa, LN, Desai, S, Diehl, HT, Dietrich, JP, Dobbs, MA, Doel, P, Everett, WB, Evrard, AE, Flaugher, B, Fosalba, P, García-Bellido, J, Gaztanaga, E, George, EM, Gerdes, DW, Giannantonio, T, Gruendl, RA, Gschwend, J, Gutierrez, G, De Haan, T, Halverson, NW, Harrington, NL, Holzapfel, WL, Honscheid, K, Hou, Z, Hrubes, JD, James, DJ, Jeltema, T, Knox, L, Kron, R, Kuehn, K, Kuropatkin, N, Lahav, O, Lee, AT, Leitch, EM, Lima, M, Luong-Van, D, Maia, MAG, Manzotti, A, Marrone, DP, Marshall, JL, McMahon, JJ, Melchior, P, Menanteau, F, Meyer, SS, Miller, CJ, Mocanu, LM
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2019
Subjects:
gravitational lensing: weak
cosmological parameters
cosmology: observations
large-scale structure of Universe
astro-ph.CO
Astronomical and Space Sciences
Astronomy & Astrophysics
South Pole
South pole
Online Access:https://escholarship.org/uc/item/34h3304v
id ftcdlib:oai:escholarship.org/ark:/13030/qt34h3304v
record_format openpolar
spelling ftcdlib:oai:escholarship.org/ark:/13030/qt34h3304v 2023-05-15T18:22:52+02:00 Cosmological lensing ratios with des Y1, SPT, and Planck Prat, J Baxter, E Shin, T Sánchez, C Chang, C Jain, B Miquel, R Alarcon, A Bacon, D Bernstein, GM Cawthon, R Crawford, TM Davis, C De Vicente, J Dodelson, S Eifler, TF Friedrich, O Gatti, M Gruen, D Hartley, WG Holder, GP Hoyle, B Jarvis, M Krause, E MacCrann, N Mawdsley, B Nicola, A Omori, Y Pujol, A Rau, MM Reichardt, CL Samuroff, S Sheldon, E Troxel, MA Vielzeuf, P Zuntz, J Abbott, TMC Abdalla, FB Annis, J Avila, S Aylor, K Benson, BA Bertin, E Bleem, LE Brooks, D Burke, DL Carlstrom, JE Carrasco Kind, M Carretero, J Chang, CL Cho, HM Chown, R Crites, AT Cunha, CE Da Costa, LN Desai, S Diehl, HT Dietrich, JP Dobbs, MA Doel, P Everett, WB Evrard, AE Flaugher, B Fosalba, P García-Bellido, J Gaztanaga, E George, EM Gerdes, DW Giannantonio, T Gruendl, RA Gschwend, J Gutierrez, G De Haan, T Halverson, NW Harrington, NL Holzapfel, WL Honscheid, K Hou, Z Hrubes, JD James, DJ Jeltema, T Knox, L Kron, R Kuehn, K Kuropatkin, N Lahav, O Lee, AT Leitch, EM Lima, M Luong-Van, D Maia, MAG Manzotti, A Marrone, DP Marshall, JL McMahon, JJ Melchior, P Menanteau, F Meyer, SS Miller, CJ Mocanu, LM 1363 - 1379 2019-07-21 application/pdf https://escholarship.org/uc/item/34h3304v unknown eScholarship, University of California qt34h3304v https://escholarship.org/uc/item/34h3304v public Monthly Notices of the Royal Astronomical Society, vol 487, iss 1 gravitational lensing: weak cosmological parameters cosmology: observations large-scale structure of Universe astro-ph.CO Astronomical and Space Sciences Astronomy & Astrophysics article 2019 ftcdlib 2021-04-16T07:11:22Z Correlations between tracers of the matter density field and gravitational lensing are sensitive to the evolution of the matter power spectrum and the expansion rate across cosmic time. Appropriately defined ratios of such correlation functions, on the other hand, depend only on the angular diameter distances to the tracer objects and to the gravitational lensing source planes. Because of their simple cosmological dependence, such ratios can exploit available signal-to-noise ratio down to small angular scales, even where directly modelling the correlation functions is difficult. We present a measurement of lensing ratios using galaxy position and lensing data from the Dark Energy Survey, and CMB lensing data from the South Pole Telescope and Planck, obtaining the highest precision lensing ratio measurements to date. Relative to the concordance CDM model, we find a best-fitting lensing ratio amplitude of A = 1.1 ± 0.1. We use the ratio measurements to generate cosmological constraints, focusing on the curvature parameter. We demonstrate that photometrically selected galaxies can be used to measure lensing ratios, and argue that future lensing ratio measurements with data from a combination of LSST and Stage-4 CMB experiments can be used to place interesting cosmological constraints, even after considering the systematic uncertainties associated with photometric redshift and galaxy shear estimation. Article in Journal/Newspaper South pole University of California: eScholarship South Pole
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic gravitational lensing: weak
cosmological parameters
cosmology: observations
large-scale structure of Universe
astro-ph.CO
Astronomical and Space Sciences
Astronomy & Astrophysics
spellingShingle gravitational lensing: weak
cosmological parameters
cosmology: observations
large-scale structure of Universe
astro-ph.CO
Astronomical and Space Sciences
Astronomy & Astrophysics
Prat, J
Baxter, E
Shin, T
Sánchez, C
Chang, C
Jain, B
Miquel, R
Alarcon, A
Bacon, D
Bernstein, GM
Cawthon, R
Crawford, TM
Davis, C
De Vicente, J
Dodelson, S
Eifler, TF
Friedrich, O
Gatti, M
Gruen, D
Hartley, WG
Holder, GP
Hoyle, B
Jarvis, M
Krause, E
MacCrann, N
Mawdsley, B
Nicola, A
Omori, Y
Pujol, A
Rau, MM
Reichardt, CL
Samuroff, S
Sheldon, E
Troxel, MA
Vielzeuf, P
Zuntz, J
Abbott, TMC
Abdalla, FB
Annis, J
Avila, S
Aylor, K
Benson, BA
Bertin, E
Bleem, LE
Brooks, D
Burke, DL
Carlstrom, JE
Carrasco Kind, M
Carretero, J
Chang, CL
Cho, HM
Chown, R
Crites, AT
Cunha, CE
Da Costa, LN
Desai, S
Diehl, HT
Dietrich, JP
Dobbs, MA
Doel, P
Everett, WB
Evrard, AE
Flaugher, B
Fosalba, P
García-Bellido, J
Gaztanaga, E
George, EM
Gerdes, DW
Giannantonio, T
Gruendl, RA
Gschwend, J
Gutierrez, G
De Haan, T
Halverson, NW
Harrington, NL
Holzapfel, WL
Honscheid, K
Hou, Z
Hrubes, JD
James, DJ
Jeltema, T
Knox, L
Kron, R
Kuehn, K
Kuropatkin, N
Lahav, O
Lee, AT
Leitch, EM
Lima, M
Luong-Van, D
Maia, MAG
Manzotti, A
Marrone, DP
Marshall, JL
McMahon, JJ
Melchior, P
Menanteau, F
Meyer, SS
Miller, CJ
Mocanu, LM
Cosmological lensing ratios with des Y1, SPT, and Planck
topic_facet gravitational lensing: weak
cosmological parameters
cosmology: observations
large-scale structure of Universe
astro-ph.CO
Astronomical and Space Sciences
Astronomy & Astrophysics
description Correlations between tracers of the matter density field and gravitational lensing are sensitive to the evolution of the matter power spectrum and the expansion rate across cosmic time. Appropriately defined ratios of such correlation functions, on the other hand, depend only on the angular diameter distances to the tracer objects and to the gravitational lensing source planes. Because of their simple cosmological dependence, such ratios can exploit available signal-to-noise ratio down to small angular scales, even where directly modelling the correlation functions is difficult. We present a measurement of lensing ratios using galaxy position and lensing data from the Dark Energy Survey, and CMB lensing data from the South Pole Telescope and Planck, obtaining the highest precision lensing ratio measurements to date. Relative to the concordance CDM model, we find a best-fitting lensing ratio amplitude of A = 1.1 ± 0.1. We use the ratio measurements to generate cosmological constraints, focusing on the curvature parameter. We demonstrate that photometrically selected galaxies can be used to measure lensing ratios, and argue that future lensing ratio measurements with data from a combination of LSST and Stage-4 CMB experiments can be used to place interesting cosmological constraints, even after considering the systematic uncertainties associated with photometric redshift and galaxy shear estimation.
format Article in Journal/Newspaper
author Prat, J
Baxter, E
Shin, T
Sánchez, C
Chang, C
Jain, B
Miquel, R
Alarcon, A
Bacon, D
Bernstein, GM
Cawthon, R
Crawford, TM
Davis, C
De Vicente, J
Dodelson, S
Eifler, TF
Friedrich, O
Gatti, M
Gruen, D
Hartley, WG
Holder, GP
Hoyle, B
Jarvis, M
Krause, E
MacCrann, N
Mawdsley, B
Nicola, A
Omori, Y
Pujol, A
Rau, MM
Reichardt, CL
Samuroff, S
Sheldon, E
Troxel, MA
Vielzeuf, P
Zuntz, J
Abbott, TMC
Abdalla, FB
Annis, J
Avila, S
Aylor, K
Benson, BA
Bertin, E
Bleem, LE
Brooks, D
Burke, DL
Carlstrom, JE
Carrasco Kind, M
Carretero, J
Chang, CL
Cho, HM
Chown, R
Crites, AT
Cunha, CE
Da Costa, LN
Desai, S
Diehl, HT
Dietrich, JP
Dobbs, MA
Doel, P
Everett, WB
Evrard, AE
Flaugher, B
Fosalba, P
García-Bellido, J
Gaztanaga, E
George, EM
Gerdes, DW
Giannantonio, T
Gruendl, RA
Gschwend, J
Gutierrez, G
De Haan, T
Halverson, NW
Harrington, NL
Holzapfel, WL
Honscheid, K
Hou, Z
Hrubes, JD
James, DJ
Jeltema, T
Knox, L
Kron, R
Kuehn, K
Kuropatkin, N
Lahav, O
Lee, AT
Leitch, EM
Lima, M
Luong-Van, D
Maia, MAG
Manzotti, A
Marrone, DP
Marshall, JL
McMahon, JJ
Melchior, P
Menanteau, F
Meyer, SS
Miller, CJ
Mocanu, LM
author_facet Prat, J
Baxter, E
Shin, T
Sánchez, C
Chang, C
Jain, B
Miquel, R
Alarcon, A
Bacon, D
Bernstein, GM
Cawthon, R
Crawford, TM
Davis, C
De Vicente, J
Dodelson, S
Eifler, TF
Friedrich, O
Gatti, M
Gruen, D
Hartley, WG
Holder, GP
Hoyle, B
Jarvis, M
Krause, E
MacCrann, N
Mawdsley, B
Nicola, A
Omori, Y
Pujol, A
Rau, MM
Reichardt, CL
Samuroff, S
Sheldon, E
Troxel, MA
Vielzeuf, P
Zuntz, J
Abbott, TMC
Abdalla, FB
Annis, J
Avila, S
Aylor, K
Benson, BA
Bertin, E
Bleem, LE
Brooks, D
Burke, DL
Carlstrom, JE
Carrasco Kind, M
Carretero, J
Chang, CL
Cho, HM
Chown, R
Crites, AT
Cunha, CE
Da Costa, LN
Desai, S
Diehl, HT
Dietrich, JP
Dobbs, MA
Doel, P
Everett, WB
Evrard, AE
Flaugher, B
Fosalba, P
García-Bellido, J
Gaztanaga, E
George, EM
Gerdes, DW
Giannantonio, T
Gruendl, RA
Gschwend, J
Gutierrez, G
De Haan, T
Halverson, NW
Harrington, NL
Holzapfel, WL
Honscheid, K
Hou, Z
Hrubes, JD
James, DJ
Jeltema, T
Knox, L
Kron, R
Kuehn, K
Kuropatkin, N
Lahav, O
Lee, AT
Leitch, EM
Lima, M
Luong-Van, D
Maia, MAG
Manzotti, A
Marrone, DP
Marshall, JL
McMahon, JJ
Melchior, P
Menanteau, F
Meyer, SS
Miller, CJ
Mocanu, LM
author_sort Prat, J
title Cosmological lensing ratios with des Y1, SPT, and Planck
title_short Cosmological lensing ratios with des Y1, SPT, and Planck
title_full Cosmological lensing ratios with des Y1, SPT, and Planck
title_fullStr Cosmological lensing ratios with des Y1, SPT, and Planck
title_full_unstemmed Cosmological lensing ratios with des Y1, SPT, and Planck
title_sort cosmological lensing ratios with des y1, spt, and planck
publisher eScholarship, University of California
publishDate 2019
url https://escholarship.org/uc/item/34h3304v
op_coverage 1363 - 1379
geographic South Pole
geographic_facet South Pole
genre South pole
genre_facet South pole
op_source Monthly Notices of the Royal Astronomical Society, vol 487, iss 1
op_relation qt34h3304v
https://escholarship.org/uc/item/34h3304v
op_rights public
_version_ 1766202278929235968

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