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Galaxy cluster matter profiles: I. Self-similarity, mass calibration, and observable-mass relation validation employing cluster mass posteriors

Galaxy cluster matter profiles: I. Self-similarity, mass calibration, and observable-mass relation validation employing cluster mass posteriors
Galaxy cluster matter profiles: I. Self-similarity, mass calibration, and observable-mass relation validation employing cluster mass posteriors
We present a study of the weak lensing inferred matter profiles ΔΣ(R) of 698 South Pole Telescope (SPT) thermal Sunyaev-Zel’dovich effect (tSZE) selected and MCMF optically confirmed galaxy clusters in the redshift range 0.25 <  z <  0.94 that have associated weak gravitational lensing shear profiles from the Dark Energy Survey (DES). Rescaling these profiles to account for the mass dependent size and the redshift dependent density produces average rescaled matter profiles ΔΣ(R/R200c)/(ρcritR200c) with a lower dispersion than the unscaled ΔΣ(R) versions, indicating a significant degree of self-similarity. Galaxy clusters from hydrodynamical simulations also exhibit matter profiles that suggest a high degree of self-similarity, with RMS variation among the average rescaled matter profiles with redshift and mass falling by a factor of approximately six and 23, respectively, compared to the unscaled average matter profiles. We employed this regularity in a new Bayesian method for weak lensing mass calibration that employs the so-called cluster mass posterior P(M200|ζ̂, λ̂, z), which describes the individual cluster masses given their tSZE (ζ̂) and optical (λ̂, z) observables. This method enables simultaneous constraints on richness λ-mass and tSZE detection significance ζ-mass relations using average rescaled cluster matter profiles. We validated the method using realistic mock datasets and present observable-mass relation constraints for the SPT×DES sample, where we constrained the amplitude, mass trend, redshift trend, and intrinsic scatter. Our observable-mass relation results are in agreement with the mass calibration derived from the recent cosmological analysis of the SPT×DES data based on a cluster-by-cluster lensing calibration. Our new mass calibration technique offers a higher efficiency when compared to the single cluster calibration technique. We present new validation tests of the observable-mass relation that indicate the underlying power-law form and scatter are adequate to describe the real cluster sample but that also suggest a redshift variation in the intrinsic scatter of the λ-mass relation may offer a better description. In addition, the average rescaled matter profiles offer high signal-to-noise ratio (S/N) constraints on the shape of real cluster matter profiles, which are in good agreement with available hydrodynamical ΛCDM simulations. This high S/N profile contains information about baryon feedback, the collisional nature of dark matter, and potential deviations from general relativity.
astro-ph.CO, galaxies: clusters: general, large-scale structure of Universe, gravitational lensing: weak
Singh, A.
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Mohr, J.J.
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Davies, C.T.
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Bocquet, S.
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Grandis, S.
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Klein, M.
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Marshall, J.L.
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Aguena, M.
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Allam, S.S.
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Alves, O.
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Andrade-Oliveira, F.
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Bacon, D.
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Bhargava, S.
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Brooks, D.
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Rosell, A. Carnero
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Carretero, J.
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Costanzi, M.
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da Costa, L.N.
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Pereira, M.E.S.
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Desai, S.
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Diehl, H.T.
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Doel, P.
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Everett, S.
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Flaugher, B.
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Frieman, J.
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García-Bellido, J.
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Gaztanaga, E.
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Gruendl, R.A.
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Gutierrez, G.
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Hollowood, D.L.
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Honscheid, K.
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James, D.J.
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Kuehn, K.
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Lima, M.
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Mena-Fernández, J.
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Menanteau, F.
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Miquel, R.
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Myles, J.
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Pieres, A.
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Romer, A.K.
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Samuroff, S.
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Sanchez, E.
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Cid, D. Sanchez
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Sevilla-Noarbe, I.
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Smith, M.
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Suchyta, E.
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Swanson, M.E.C.
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Tarle, G.
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To, C.
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Wiseman, P.
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the DES and SPT Collaborations
Singh, A.
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Mohr, J.J.
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Davies, C.T.
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Bocquet, S.
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Grandis, S.
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Klein, M.
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Marshall, J.L.
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Aguena, M.
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Allam, S.S.
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Alves, O.
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Andrade-Oliveira, F.
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Bacon, D.
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Bhargava, S.
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Brooks, D.
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Rosell, A. Carnero
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Carretero, J.
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Costanzi, M.
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da Costa, L.N.
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Pereira, M.E.S.
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Desai, S.
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Diehl, H.T.
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Doel, P.
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Everett, S.
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Flaugher, B.
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Frieman, J.
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García-Bellido, J.
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Gaztanaga, E.
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Gruendl, R.A.
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Gutierrez, G.
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Hollowood, D.L.
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Honscheid, K.
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James, D.J.
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Kuehn, K.
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Lima, M.
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Mena-Fernández, J.
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Menanteau, F.
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Miquel, R.
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Myles, J.
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Pieres, A.
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Romer, A.K.
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Samuroff, S.
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Sanchez, E.
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Cid, D. Sanchez
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Sevilla-Noarbe, I.
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Smith, M.
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Suchyta, E.
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Swanson, M.E.C.
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Tarle, G.
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To, C.
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Wiseman, P.
865f95f8-2200-46a8-bd5e-3ee30bb44072

Singh, A., Mohr, J.J. and Davies, C.T. , the DES and SPT Collaborations (2025) Galaxy cluster matter profiles: I. Self-similarity, mass calibration, and observable-mass relation validation employing cluster mass posteriors. Astronomy & Astrophysics, Vol., 695, [A49]. (doi:10.1051/0004-6361/202451516).

Record type: Article

Abstract

We present a study of the weak lensing inferred matter profiles ΔΣ(R) of 698 South Pole Telescope (SPT) thermal Sunyaev-Zel’dovich effect (tSZE) selected and MCMF optically confirmed galaxy clusters in the redshift range 0.25 <  z <  0.94 that have associated weak gravitational lensing shear profiles from the Dark Energy Survey (DES). Rescaling these profiles to account for the mass dependent size and the redshift dependent density produces average rescaled matter profiles ΔΣ(R/R200c)/(ρcritR200c) with a lower dispersion than the unscaled ΔΣ(R) versions, indicating a significant degree of self-similarity. Galaxy clusters from hydrodynamical simulations also exhibit matter profiles that suggest a high degree of self-similarity, with RMS variation among the average rescaled matter profiles with redshift and mass falling by a factor of approximately six and 23, respectively, compared to the unscaled average matter profiles. We employed this regularity in a new Bayesian method for weak lensing mass calibration that employs the so-called cluster mass posterior P(M200|ζ̂, λ̂, z), which describes the individual cluster masses given their tSZE (ζ̂) and optical (λ̂, z) observables. This method enables simultaneous constraints on richness λ-mass and tSZE detection significance ζ-mass relations using average rescaled cluster matter profiles. We validated the method using realistic mock datasets and present observable-mass relation constraints for the SPT×DES sample, where we constrained the amplitude, mass trend, redshift trend, and intrinsic scatter. Our observable-mass relation results are in agreement with the mass calibration derived from the recent cosmological analysis of the SPT×DES data based on a cluster-by-cluster lensing calibration. Our new mass calibration technique offers a higher efficiency when compared to the single cluster calibration technique. We present new validation tests of the observable-mass relation that indicate the underlying power-law form and scatter are adequate to describe the real cluster sample but that also suggest a redshift variation in the intrinsic scatter of the λ-mass relation may offer a better description. In addition, the average rescaled matter profiles offer high signal-to-noise ratio (S/N) constraints on the shape of real cluster matter profiles, which are in good agreement with available hydrodynamical ΛCDM simulations. This high S/N profile contains information about baryon feedback, the collisional nature of dark matter, and potential deviations from general relativity.

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Accepted/In Press date: 29 January 2025
e-pub ahead of print date: 5 March 2025
Published date: 5 March 2025
Keywords: astro-ph.CO, galaxies: clusters: general, large-scale structure of Universe, gravitational lensing: weak

Identifiers

Local EPrints ID: 501241
URI: http://eprints.soton.ac.uk/id/eprint/501241
DOI: doi:10.1051/0004-6361/202451516
PURE UUID: 03cbb6a2-7188-44af-b878-97a1a8506130
ORCID for P. Wiseman: ORCID iD orcid.org/0000-0002-3073-1512

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Date deposited: 27 May 2025 18:16
Last modified: 03 Sep 2025 01:54

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Contributors

Author: A. Singh
Author: J.J. Mohr
Author: C.T. Davies
Author: S. Bocquet
Author: S. Grandis
Author: M. Klein
Author: J.L. Marshall
Author: M. Aguena
Author: S.S. Allam
Author: O. Alves
Author: F. Andrade-Oliveira
Author: D. Bacon
Author: S. Bhargava
Author: D. Brooks
Author: A. Carnero Rosell
Author: J. Carretero
Author: M. Costanzi
Author: L.N. da Costa
Author: M.E.S. Pereira
Author: S. Desai
Author: H.T. Diehl
Author: P. Doel
Author: S. Everett
Author: B. Flaugher
Author: J. Frieman
Author: J. García-Bellido
Author: E. Gaztanaga
Author: R.A. Gruendl
Author: G. Gutierrez
Author: D.L. Hollowood
Author: K. Honscheid
Author: D.J. James
Author: K. Kuehn
Author: M. Lima
Author: J. Mena-Fernández
Author: F. Menanteau
Author: R. Miquel
Author: J. Myles
Author: A. Pieres
Author: A.K. Romer
Author: S. Samuroff
Author: E. Sanchez
Author: D. Sanchez Cid
Author: I. Sevilla-Noarbe
Author: M. Smith
Author: E. Suchyta
Author: M.E.C. Swanson
Author: G. Tarle
Author: C. To
Author: P. Wiseman ORCID iD
Corporate Author: the DES and SPT Collaborations

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