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The Role of Flare Stars in Cosmic-ray Origin

Published online by Cambridge University Press:  12 April 2016

Maurice M. Shapiro
Maurice M. Shapiro*
Affiliation:
University of Maryland, College Park, MD, USA*

Abstract

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Supernovae and their expanding shock fronts are evidently the main agents of cosmic-ray acceleration. The thermal gas in the interstellar medium has been regarded as the reservoir of seed particles destined to become cosmic-ray nuclei. This assumption is, however, at variance with the source composition of galactic cosmic iays. In an alternative hypothesis, the seed particles are injected into the interstellar material as suprathermal seed ions, and it has been surmised that flare stars provide the initial boost. We find that the dMe and dKe stars are probably the principal sources of cosmic-ray seed particles. Most stars in the Galaxy are red dwarfs and many of these flares much more powerfully and frequently than solar flares. Augmenting the optical data, recent X-ray and far-ultraviolet observations now permit a better estimate of the energy budget. Altogether, dMe and dKe stars seem to be the most promising class of cosmic-ray injectors.

Type
Theory of Flares
Information
International Astronomical Union Colloquium , Volume 151: Flares and Flashes , 1995 , pp. 185 - 192
Copyright
Copyright © Springer-Verlag 1995

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