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Rigorous Theory for Secondary Cosmic-Ray Ionization

A. V. Ivlev, Kedron Silsbee, M. Padovani, Daniele Galli

2021The Astrophysical Journal22 citationsDOIOpen Access PDF

Abstract

Abstract The energy spectrum of electrons produced in molecular gas by interstellar cosmic rays (CRs) is rigorously calculated as a function of gas column density N traversed by the CRs. This allows us to accurately compute the local value of the secondary ionization rate of molecular hydrogen, , as a function of the local primary ionization rate, ζ p ( N ). The ratio increases monotonically with N , and can considerably exceed the value of ≈0.67 commonly adopted in the literature. For sufficiently soft interstellar spectra, the dependence versus N is practically insensitive to their particular shape and thus is a general characteristic of the secondary CR ionization in dense gas.

Topics & Concepts

Cosmic rayIonizationCOSMIC cancer databaseAstronomyAstrophysicsPhysicsQuantum mechanicsIonAtomic and Molecular PhysicsDark Matter and Cosmic PhenomenaRadiation Therapy and Dosimetry
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