Distinguishing between photoionized and collisionally ionized gas in the circumgalactic medium
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2022
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Oxford University Press.
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Abstract
Most studies of highly ionized plasmas have historically assumed ions are either in photoionization equilibrium, PIE, or collisional ionization equilibrium, CIE, sometimes including multiple phases with different relevant mechanisms. Simulation analysis packages, on the other hand, tend to use precomputed ion fraction tables which include both mechanisms, among others. Focusing on the low-density, high temperature phase space likely to be most relevant in the circumgalactic medium, in this work we show that most ions can be classified as ‘PI’ or ‘CI’ on an ion-by-ion basis. This means that for a cloud at a particular point in phase space, some ions will be created primarily by PI and others by CI, with other mechanisms playing only very minor roles. Specifically, we show that ions are generally CI if the thermal energy per particle is greater than ∼ 6% of their ionization energy, and PI otherwise. We analyse the accuracy of this ansatz compared to usual PIE/CIE calculations, and show the surprisingly minor dependence of this conclusion on redshift and ionizing background.
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© 2022 The Author(s). Partial support for CS was provided by grant HST-AR-14578 to JP from the STScI under NASA contract NAS5-26555 and from JP’s Google Faculty Research Grant. CS also received support from the UCSC Science Internship Program (SIP) as well as the ARCS Foundation. SRF acknowledges support from a Spanish postdoctoral fellowship, under grant number 2017- T2/TIC-5592. SRF also acknowledges financial support from the Spanish Ministry of Economy and Competitiveness (MINECO) under grant number AYA2016-75808-R, AYA2017-90589-REDT and S2018/NMT429, and from the CAM-UCM under grant number PR65/19-22462. We would like to thank Christophe Morriset for many helpful discussions of Cloudy and the various mechanisms which it uses, and would also like to acknowledge the many other developers of that software. We also benefited from helpful discussions with J. Xavier Prochaska, Joe Burchett, Sandra Faber, David Koo, Anatoly Klypin, Joanna Woo, and the SIP interns working with CS, Paul Mayerhofer, Soumily Maji, and Antonio Man. Finally, we thank an anonymous referee who helped us clarify several key points of the paper.