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Auteurs principaux: Shaji, Aashiya Anitha, Hallé, Anaëlle, Gasymov, Damir, Melchior, Anne-Laure, Combes, Françoise, Cattaneo, Andrea
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2507.08172
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author Shaji, Aashiya Anitha
Hallé, Anaëlle
Gasymov, Damir
Melchior, Anne-Laure
Combes, Françoise
Cattaneo, Andrea
author_facet Shaji, Aashiya Anitha
Hallé, Anaëlle
Gasymov, Damir
Melchior, Anne-Laure
Combes, Françoise
Cattaneo, Andrea
contents Galaxy clusters produce a very hostile environment to galaxies, whose gas gets stripped by ram-pressure, suffer galaxy interactions and witness quenching of their star formation. Clusters, like Abell 2142, grow not only through galaxy accretion but also through group infall. Our goal is to study the physical and dynamical state of the most conspicuous infalling group, on a filament projected at 1.3 Mpc from the Abell 2142 centre. The galaxy group is the leading edge of a spectacular trailing 700-kpc-long X-ray tail of hot gas stripped by ram-pressure. The infalling galaxies are not quenched yet, and are ideal objects to study the transformation processes due to the cluster environment. We use integral field spectroscopy from MaNGA to derive stellar and gas kinematics, and MegaCam for ugr photometry. Stellar populations (with age and metallicity) are obtained through full-spectrum fitting using Nburst. The gas kinematics and excitation are derived from the line emission of H$α$, [NII], [OIII] and H$β$. The group contains four galaxies, of which two are merging and partly superposing on the line of sight. With a simple parametric model for each velocity field, we succeed in disentangling the contribution of each galaxy and derive their physical state and kinematics. The galaxies are perturbed, and intra-group gas is observed as tidal tails and loops. They are mainly disks in rotation, although some regions reveal elevated dispersion, typical of out-of-equilibrium gas. All galaxies show sustained star formation, with a global star formation rate of 45 M$_\odot$/yr. We conclude that the long X-ray tail must have come from the hot intra-group medium, present before the group infall, and does not correspond to the ram-pressure stripping of the galaxy gas. The galaxy interactions within the group are still enhancing the star formation, from the disks that are still rich in dense gas.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08172
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A group of merging galaxies falling onto Abell 2142
Shaji, Aashiya Anitha
Hallé, Anaëlle
Gasymov, Damir
Melchior, Anne-Laure
Combes, Françoise
Cattaneo, Andrea
Astrophysics of Galaxies
Galaxy clusters produce a very hostile environment to galaxies, whose gas gets stripped by ram-pressure, suffer galaxy interactions and witness quenching of their star formation. Clusters, like Abell 2142, grow not only through galaxy accretion but also through group infall. Our goal is to study the physical and dynamical state of the most conspicuous infalling group, on a filament projected at 1.3 Mpc from the Abell 2142 centre. The galaxy group is the leading edge of a spectacular trailing 700-kpc-long X-ray tail of hot gas stripped by ram-pressure. The infalling galaxies are not quenched yet, and are ideal objects to study the transformation processes due to the cluster environment. We use integral field spectroscopy from MaNGA to derive stellar and gas kinematics, and MegaCam for ugr photometry. Stellar populations (with age and metallicity) are obtained through full-spectrum fitting using Nburst. The gas kinematics and excitation are derived from the line emission of H$α$, [NII], [OIII] and H$β$. The group contains four galaxies, of which two are merging and partly superposing on the line of sight. With a simple parametric model for each velocity field, we succeed in disentangling the contribution of each galaxy and derive their physical state and kinematics. The galaxies are perturbed, and intra-group gas is observed as tidal tails and loops. They are mainly disks in rotation, although some regions reveal elevated dispersion, typical of out-of-equilibrium gas. All galaxies show sustained star formation, with a global star formation rate of 45 M$_\odot$/yr. We conclude that the long X-ray tail must have come from the hot intra-group medium, present before the group infall, and does not correspond to the ram-pressure stripping of the galaxy gas. The galaxy interactions within the group are still enhancing the star formation, from the disks that are still rich in dense gas.
title A group of merging galaxies falling onto Abell 2142
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2507.08172