Equilibrium States of Galactic Atmospheres. I. The Flip Side of Mass Loading

G. Mark Voit, Viraj Pandya, Drummond B. Fielding, Greg L. Bryan, Christopher Carr, Megan Donahue, Benjamin D. Oppenheimer and Rachel S. Somerville
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Abstract

This paper presents a new framework for understanding the relationship between a galaxy and its circumgalactic medium (CGM). It focuses on how imbalances between heating and cooling cause either expansion or contraction of the CGM. It does this by tracking all of the mass and energy associated with a halo’s baryons, including their gravitational potential energy, even if feedback has pushed some of those baryons beyond the halo’s virial radius. We show how a star-forming galaxy’s equilibrium state can be algebraically derived within the context of this framework, and we analyze how the equilibrium star formation rate depends on supernova feedback. We consider the consequences of varying the mass loading parameter relating a galaxy’s gas mass outflow rate ( ) to its star formation rate ( ) and obtain results that challenge common assumptions. In particular, we find that equilibrium star formation rates in low-mass galaxies are generally insensitive to mass loading, and when mass loading does matter, increasing it actually results in more star formation because more supernova energy is needed to resist atmospheric contraction.
银河大气的平衡状态。I. 质量负荷的反面
本文提出了一个理解星系与其环星系介质(CGM)之间关系的新框架。它的重点是加热和冷却之间的不平衡如何导致环银河介质的膨胀或收缩。它通过跟踪与光环重子相关的所有质量和能量,包括它们的引力势能,来实现这一目的,即使反馈已经把其中一些重子推到了光环的病毒半径之外。我们展示了如何在这个框架内代数地推导出恒星形成星系的平衡态,并分析了平衡恒星形成率如何取决于超新星反馈。我们考虑了改变有关星系气体质量流出率( )和恒星形成率( )的质量负荷参数的后果,并得出了挑战常见假设的结果。特别是,我们发现低质量星系的平衡恒星形成率通常对质量负荷不敏感,当质量负荷确实重要时,增加质量负荷实际上会导致更多的恒星形成,因为需要更多的超新星能量来抵抗大气收缩。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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