Circumgalactic Gas and the Precipitation Limit

During the last decade, numerous and varied observations, along with increasingly sophisticated numerical simulations, have awakened astronomers to the central role the circumgalactic medium (CGM) plays in regulating galaxy evolution. It contains the majority of the baryonic matter associated with a...

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Bibliographic Details
Published in:arXiv.org 2019-03
Main Authors: Voit, G M, Babul, A, Babyk, Iu, Bryan, G L, H -W Chen, Donahue, M, Fielding, D, Gaspari, M, Y Li, McDonald, M, O'Shea, B W, Prasad, D, Sharma, P, Sun, M, Tremblay, G, Werk, J, Werner, N, Zahedy, F
Format: Article
Language:English
Subjects:
Celestial bodies
Cold starts
Computer simulation
Feedback loops
Galactic evolution
Galaxies
Precipitation
Star & galaxy formation
Star formation
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Summary:During the last decade, numerous and varied observations, along with increasingly sophisticated numerical simulations, have awakened astronomers to the central role the circumgalactic medium (CGM) plays in regulating galaxy evolution. It contains the majority of the baryonic matter associated with a galaxy, along with most of the metals, and must continually replenish the star forming gas in galaxies that continue to sustain star formation. And while the CGM is complex, containing gas ranging over orders of magnitude in temperature and density, a simple emergent property may be governing its structure and role. Observations increasingly suggest that the ambient CGM pressure cannot exceed the limit at which cold clouds start to condense out and precipitate toward the center of the potential well. If feedback fueled by those clouds then heats the CGM and causes it to expand, the pressure will drop and the "rain" will diminish. Such a feedback loop tends to suspend the CGM at the threshold pressure for precipitation. The coming decade will offer many opportunities to test this potentially fundamental principle of galaxy evolution.
ISSN:2331-8422