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Main Authors: Voit, G. M., Wibking, B. D., Yaldiz, D.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.15121
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author Voit, G. M.
Wibking, B. D.
Yaldiz, D.
author_facet Voit, G. M.
Wibking, B. D.
Yaldiz, D.
contents Circumgalactic gas around massive galaxies generally has a volume-filling component -- an atmosphere -- with a temperature determined by the potential-well depth of the galaxy's halo. If the atmosphere is near hydrostatic equilibrium and is stable to convection, then it can remain nearly homogeneous, as long as it is not too dense. But if its density is great enough, it becomes prone to producing a rain of cold clouds that fall toward the galaxy's center and accrete onto its central black hole. Here we explain how relatively weak magnetic fields enhance a galactic atmosphere's tendency to produce cold clouds and how the cold gas becomes organized into vertically elongated, highly magnetized filaments descending at sub-Keplerian speeds. It is intended to complement recent numerical simulations of the process and to serve as a guide to interpreting both simulations and observations of the filamentary gas in hot galactic atmospheres.
format Preprint
id arxiv_https___arxiv_org_abs_2602_15121
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Magnetohydrodynamic Precipitation
Voit, G. M.
Wibking, B. D.
Yaldiz, D.
Astrophysics of Galaxies
Circumgalactic gas around massive galaxies generally has a volume-filling component -- an atmosphere -- with a temperature determined by the potential-well depth of the galaxy's halo. If the atmosphere is near hydrostatic equilibrium and is stable to convection, then it can remain nearly homogeneous, as long as it is not too dense. But if its density is great enough, it becomes prone to producing a rain of cold clouds that fall toward the galaxy's center and accrete onto its central black hole. Here we explain how relatively weak magnetic fields enhance a galactic atmosphere's tendency to produce cold clouds and how the cold gas becomes organized into vertically elongated, highly magnetized filaments descending at sub-Keplerian speeds. It is intended to complement recent numerical simulations of the process and to serve as a guide to interpreting both simulations and observations of the filamentary gas in hot galactic atmospheres.
title Magnetohydrodynamic Precipitation
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2602.15121