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Main Authors: Benavides, José A., Navarro, Julio F., Sales, Laura V., Pérez, Isabel, Bidaran, Bahar
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.13159
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author Benavides, José A.
Navarro, Julio F.
Sales, Laura V.
Pérez, Isabel
Bidaran, Bahar
author_facet Benavides, José A.
Navarro, Julio F.
Sales, Laura V.
Pérez, Isabel
Bidaran, Bahar
contents Field dwarf galaxies not actively forming stars are relatively rare in the local Universe, but are present in cosmological hydrodynamical simulations. We use the TNG50 simulation to investigate their origin and find that they all result from environmental effects that have removed or reduced their gas content. Quenched field dwarfs consist of either backsplash objects ejected from a massive host or of systems that have lost their gas after crossing overdense regions such as filaments or sheets (``cosmic web stripping''). Quenched fractions rise steeply with decreasing stellar mass, with quenched systems making up roughly $\sim 15\%$ of all field dwarfs (i.e., excluding satellites) with stellar masses $10^{7}<M_{\star}/M_{\odot}<10^{9}$. This fraction drops to only $\sim1\%$ when a strict isolation criterion that requires no neighbours with $M_{\star}>10^9\, M_{\odot}$ within {$1.5$} Mpc is applied. Of these isolated dwarfs, $\sim 6\%$ are backsplash, while the other $\sim 94\%$ have been affected by the cosmic web. Backsplash systems are more deficient in dark matter, have retained less or no gas, and have stopped forming stars earlier than cosmic web-stripped systems. The discovery of deeply isolated dwarf galaxies which were quenched relatively recently would lend observational support to the prediction that the cosmic web is capable of inducing the cessation of star formation in dwarfs.
format Preprint
id arxiv_https___arxiv_org_abs_2501_13159
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Environmental Quenching Mechanisms of Field Dwarf Galaxies
Benavides, José A.
Navarro, Julio F.
Sales, Laura V.
Pérez, Isabel
Bidaran, Bahar
Astrophysics of Galaxies
Field dwarf galaxies not actively forming stars are relatively rare in the local Universe, but are present in cosmological hydrodynamical simulations. We use the TNG50 simulation to investigate their origin and find that they all result from environmental effects that have removed or reduced their gas content. Quenched field dwarfs consist of either backsplash objects ejected from a massive host or of systems that have lost their gas after crossing overdense regions such as filaments or sheets (``cosmic web stripping''). Quenched fractions rise steeply with decreasing stellar mass, with quenched systems making up roughly $\sim 15\%$ of all field dwarfs (i.e., excluding satellites) with stellar masses $10^{7}<M_{\star}/M_{\odot}<10^{9}$. This fraction drops to only $\sim1\%$ when a strict isolation criterion that requires no neighbours with $M_{\star}>10^9\, M_{\odot}$ within {$1.5$} Mpc is applied. Of these isolated dwarfs, $\sim 6\%$ are backsplash, while the other $\sim 94\%$ have been affected by the cosmic web. Backsplash systems are more deficient in dark matter, have retained less or no gas, and have stopped forming stars earlier than cosmic web-stripped systems. The discovery of deeply isolated dwarf galaxies which were quenched relatively recently would lend observational support to the prediction that the cosmic web is capable of inducing the cessation of star formation in dwarfs.
title The Environmental Quenching Mechanisms of Field Dwarf Galaxies
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2501.13159