CLASH-VLT: The Inner Slope of the MACS J1206.2-0847 Dark Matter Density Profile

Biviano, Andrea; Pizzuti, Lorenzo; Mercurio, Amata; Sartoris, Barbara; Rosati, Piero; Ettori, Stefano; Girardi, Marisa; Grillo, Claudio; Caminha, Gabriel B.; Nonino, Mario

doi:10.3847/1538-4357/acf832

ApJ

2023

DOI: 10.3847/1538-4357/acf832

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CLASH-VLT: The Inner Slope of the MACS J1206.2-0847 Dark Matter Density Profile

Andrea Biviano,

Lorenzo Pizzuti,

Amata Mercurio

et al.

Abstract: The inner slope (γ DM) of the dark matter (DM) density profile of cosmological halos carries information about the properties of DM and/or baryonic processes affecting the halo gravitational potential. Cold DM cosmological simulations predict steep inner slopes, γ DM ≃ 1. We test this prediction on the MACS J1206.2-0847 cluster at redshift z = 0.44, whose DM density profile has been claimed to be cored at the center. We determine the cluster DM density profile from 2 kpc fro… Show more

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2024

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Cited by 5 publications

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Unveiling the shape: A multi-wavelength analysis of the galaxy clusters Abell 76 and Abell 1307

Barrena,

Pizzuti,

Chon

et al. 2024

A&A

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We analyse the dynamical state of the galaxy clusters Abell 76 and Abell 1307 from the optical point of view, presenting a coherent scenario that responds to the X-ray emissions observed in these structures. Our study is based on 231 and 164 spectroscopic redshifts, for the clusters A76 and A1307, respectively, obtained mostly with the Telescopio Nazionale Galileo and complemented with others collected from the SDSS DR16 spectroscopic database and the literature. We find that A76 and A1307 are two galaxy clusters at $z=0.0390$ and 0.0815, respectively, with a velocity dispersion of $650 56$ km $ and $863 85$ km $, and they show velocity distributions following, in practice, Gaussian profiles. From our dynamical analysis, X-ray studies and SZ- Planck emission, we obtain a mean total mass M$_ $ M$_ odot $ and $3.5 $ M$_ odot $ for A76 and A1307, respectively. Using the SDSS DR16 photometric database, we find that the spatial distribution of likely cluster members in the case of A76 is very anisotropic, while A1307 shows a compact distribution of galaxies, but it is double peaked and elongated in the south-north direction. Using XMM-Newton X-ray data, we compared the surface brightness maps with galaxy distributions and noticed that both distributions are correlated. We reconstructed the total mass profile and velocity anisotropy of both clusters by analysing the full projected phase space, through the MG-MAMPOSSt code. Our study reveals a slight indication of radial orbits for A76, while A1307 seems to prefer more isotropic orbits in the whole cluster range. In summary, A76 represents a typical young cluster, in an early stage of formation, with a very low X-ray surface brightness but a high temperature showing a very anisotropic galaxy distribution. A1307 is however more consolidated and massive showing in-homogeneous galaxy distribution and an asymmetric X-ray emission, which suggest a scenario characterised by recent minor mergers.

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Unveiling the shape: A multi-wavelength analysis of the galaxy clusters Abell 76 and Abell 1307

Barrena,

Pizzuti,

Chon

et al. 2024

A&A

View full text Add to dashboard Cite

show abstract

CLASH-VLT: Galaxy cluster MACS J0329–0211 and its surroundings using galaxies as kinematic tracers

Girardi,

Boschin,

Mercurio

et al. 2024

A&A

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The study of substructure is an important step in determining how galaxy clusters form. We aim to gain new insights into the controversial dynamical status of MACS\,J0329-0211 (MACS0329), a massive cluster at $z=0.4503 through a new analysis using a large sample of member galaxies as kinematic tracers. Our analysis is based on extensive spectroscopic data for more than 1700 galaxies obtained with the VIMOS and MUSE spectrographs at the Very Large Telescope (VLT) in combination with $B$ and $R_ C $ Suprime-Cam photometry from the Subaru archive. According to our member selection procedure, we defined a sample of 430 MACS0329 galaxies within 6 Mpc, corresponding to approximately three times the virial radius. We estimated the global velocity dispersion, $ and present the velocity dispersion profile. We estimated a mass of using 227 galaxies within Mpc, for which $ V,200 The spatial distribution of the red galaxies traces a SE-NW elongated structure without signs of a velocity gradient. This structure likely originates from the main phase of cluster assembly. The distribution of the blue galaxies is less concentrated and more rounded, and it shows signs of substructure, all characteristics indicating a recent infall of groups from the field. We detected two loose clumps of blue galaxies in the south and southwest at a distance of $ $ from the cluster center. The strong spatial segregation among galaxy populations is not accompanied by a kinematical difference. Thanks to our extensive catalog of spectroscopic redshift, we were able to study galaxy systems that are intervening along the line of sight. We identified two foreground galaxy systems, GrG1 at $z 0.31$ and GrG2 at $z 0.38$, and one background system, GrG3 at $z 0.47$. We point out that the second brightest galaxy projected onto the MACS0329 core is in fact the dominant galaxy of the foreground group GrG2. MACS0329, GrG3, and two other systems detected using DESI DR9 photometric redshifts are close to each other, suggesting the presence of a large-scale structure. MACS0329 is close to a state of dynamical equilibrium despite being surrounded by a very rich environment. We emphasize that the use of an extensive redshift survey is essential to avoiding misinterpretation of structures projected along the line of sight.

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Mass modeling and kinematics of galaxy clusters in modified gravity

Pizzuti,

Boumechta,

Haridasu

et al. 2024

J. Cosmol. Astropart. Phys.

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The chameleon screening mechanism has been constrained many a time using dynamic and kinematic galaxy cluster observables. Current constraints are, however, insensitive to different mass components within galaxy clusters and have been mainly focused on a single mass density profile, the Navarro-Frenk-White mass density model. In this work, we extend the study of the Chameleon screening mechanism in galaxy clusters by considering a series of mass density models, namely: generalized-Navarro-Frenk-While, b-Navarro-Frenk-While, Burket, Isothermal and Einasto. The coupling strength (β) and asymptotic value of the chameleon field (ϕ ∞) are constrained by using kinematics analyses of simulated galaxy clusters, generated both assuming General Relativity and a strong chameleon scenario. By implementing a Bayesian analysis we comprehensively show that the biases introduced due to an incorrect assumption of the mass model are minimal. Similarly, we also demonstrate that a spurious detection of evidence for modifications to gravity is highly unlikely when utilizing the kinematics of galaxy clusters.

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CLASH-VLT: The Inner Slope of the MACS J1206.2-0847 Dark Matter Density Profile

Cited by 5 publications

References 97 publications

Unveiling the shape: A multi-wavelength analysis of the galaxy clusters Abell 76 and Abell 1307

Unveiling the shape: A multi-wavelength analysis of the galaxy clusters Abell 76 and Abell 1307

CLASH-VLT: Galaxy cluster MACS J0329–0211 and its surroundings using galaxies as kinematic tracers

Mass modeling and kinematics of galaxy clusters in modified gravity

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