An orbital perspective on the starvation, stripping, and quenching of satellite galaxies in the EAGLE simulations

Using the EAGLE suite of simulations, we demonstrate that both cold gas stripping {\it and} starvation of gas inflow play an important role in quenching satellite galaxies across a range of stellar and halo masses, \(M_{\star}\) and \(M_{200}\). By quantifying the balance between gas inflows, outflo...

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Bibliographic Details
Published in:arXiv.org 2022-07
Main Authors: Wright, Ruby J, Claudia del P Lagos, Power, Chris, Stevens, Adam R H, Cortese, Luca, Poulton, Rhys J J
Format: Article
Language:English
Subjects:
Cold gas
Depletion
Galaxies
Inflow
Orbits
Quenching
Red shift
Satellites
Simulation
Star & galaxy formation
Star formation
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Summary:Using the EAGLE suite of simulations, we demonstrate that both cold gas stripping {\it and} starvation of gas inflow play an important role in quenching satellite galaxies across a range of stellar and halo masses, \(M_{\star}\) and \(M_{200}\). By quantifying the balance between gas inflows, outflows, and star formation rates, we show that even at \(z=2\), only \(\approx30\%\) of satellite galaxies are able to maintain equilibrium or grow their reservoir of cool gas - compared to \(\approx50\%\) of central galaxies at this redshift. We find that the number of orbits completed by a satellite is a very good predictor of its quenching, even more so than the time since infall. On average, we show that intermediate-mass satellites with \(M_{\star}\) between \(10^{9}{\rm M}_{\odot}-10^{10}{\rm M}_{\odot}\) will be quenched at first pericenter in massive group environments, \(M_{200}>10^{13.5}{\rm M}_{\odot}\); and will be quenched at second pericenter in less massive group environments, \(M_{200}10^{10}{\rm M}_{\odot}\)) experience longer depletion time-scales, being quenched between first and second pericenters in massive groups; while in smaller group environments, just \(\approx30\%\) will be quenched even after two orbits. Our results suggest that while starvation alone may be enough to slowly quench satellite galaxies, direct gas stripping, particularly at pericenters, is required to produce the short quenching time-scales exhibited in the simulation.
ISSN:2331-8422
DOI:10.48550/arxiv.2205.08414