The intracluster light as a tracer of the total matter density distribution: a view from simulations

Isaac Alonso Asensio; Claudio Dalla Vecchia; Yannick M. Bahé; David J. Barnes; Scott T. Kay

doi:10.1093/mnras/staa861

The intracluster light as a tracer of the total matter density distribution: a view from simulations

Isaac Alonso Asensio^*, Claudio Dalla Vecchia, Yannick M. Bahé, David J. Barnes, Scott T. Kay

^*Corresponding author for this work

Astronomy and Astrophysics Theory Group

Research output: Contribution to journal › Article › peer-review

Abstract

By using deep observations of clusters of galaxies, it has been recently found that the projected stellar mass density closely follows the projected total (dark and baryonic) mass density within the innermost ∼140 kpc. In this work, we aim to test these observations using the Cluster-EAGLE simulations, comparing the projected densities inferred directly from the simulations. We compare the iso-density contours using the procedure of Montes & Trujillo, and find that the shape of the stellar mass distribution follows that of the total matter even more closely than observed, although their radial profiles differ substantially. The ratio between stellar and total matter density profiles in circular apertures shows a slope close to −1, with a small dependence on the cluster's total mass. We propose an indirect method to calculate the halo mass and mass density profile from the radial profile of the intracluster stellar mass density....

Original language	English
Pages (from-to)	1859–1864
Number of pages	6
Journal	Monthly Notices of the Royal Astronomical Society
Volume	494
Issue number	2
Early online date	4 Apr 2020
DOIs	https://doi.org/10.1093/mnras/staa861
Publication status	Published - May 2020

Keywords

methods: numerical
galaxies: clusters: general

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10.1093/mnras/staa861

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title = "The intracluster light as a tracer of the total matter density distribution: a view from simulations",

abstract = "By using deep observations of clusters of galaxies, it has been recently found that the projected stellar mass density closely follows the projected total (dark and baryonic) mass density within the innermost ∼140 kpc. In this work, we aim to test these observations using the Cluster-EAGLE simulations, comparing the projected densities inferred directly from the simulations. We compare the iso-density contours using the procedure of Montes & Trujillo, and find that the shape of the stellar mass distribution follows that of the total matter even more closely than observed, although their radial profiles differ substantially. The ratio between stellar and total matter density profiles in circular apertures shows a slope close to −1, with a small dependence on the cluster's total mass. We propose an indirect method to calculate the halo mass and mass density profile from the radial profile of the intracluster stellar mass density....",

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author = "{Alonso Asensio}, Isaac and {Dalla Vecchia}, Claudio and Bah{\'e}, {Yannick M.} and Barnes, {David J.} and Kay, {Scott T.}",

year = "2020",

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doi = "10.1093/mnras/staa861",

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TY - JOUR

T1 - The intracluster light as a tracer of the total matter density distribution

T2 - a view from simulations

AU - Alonso Asensio, Isaac

AU - Dalla Vecchia, Claudio

AU - Bahé, Yannick M.

AU - Barnes, David J.

AU - Kay, Scott T.

PY - 2020/5

Y1 - 2020/5

N2 - By using deep observations of clusters of galaxies, it has been recently found that the projected stellar mass density closely follows the projected total (dark and baryonic) mass density within the innermost ∼140 kpc. In this work, we aim to test these observations using the Cluster-EAGLE simulations, comparing the projected densities inferred directly from the simulations. We compare the iso-density contours using the procedure of Montes & Trujillo, and find that the shape of the stellar mass distribution follows that of the total matter even more closely than observed, although their radial profiles differ substantially. The ratio between stellar and total matter density profiles in circular apertures shows a slope close to −1, with a small dependence on the cluster's total mass. We propose an indirect method to calculate the halo mass and mass density profile from the radial profile of the intracluster stellar mass density....

AB - By using deep observations of clusters of galaxies, it has been recently found that the projected stellar mass density closely follows the projected total (dark and baryonic) mass density within the innermost ∼140 kpc. In this work, we aim to test these observations using the Cluster-EAGLE simulations, comparing the projected densities inferred directly from the simulations. We compare the iso-density contours using the procedure of Montes & Trujillo, and find that the shape of the stellar mass distribution follows that of the total matter even more closely than observed, although their radial profiles differ substantially. The ratio between stellar and total matter density profiles in circular apertures shows a slope close to −1, with a small dependence on the cluster's total mass. We propose an indirect method to calculate the halo mass and mass density profile from the radial profile of the intracluster stellar mass density....

KW - methods: numerical

KW - galaxies: clusters: general

U2 - 10.1093/mnras/staa861

DO - 10.1093/mnras/staa861

M3 - Article

SN - 1365-2966

VL - 494

SP - 1859

EP - 1864

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

The intracluster light as a tracer of the total matter density distribution: a view from simulations

Abstract

Keywords

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