Gamma-Ray Lines from Young Supernova Remnants

Authors

Donald D. Clayton, Clemson UniversityFollow
Stirling A. Colgate, New Mexico Institute of Mining and Technology
Gerald J. Fishman, Rice University

Document Type

Article

Publication Date

1-1-1969

Publication Title

The Astrophysical Journal

Publisher

The American Astronomical Society

Abstract

The gamma-ray luminosity of a typical type I supernova remnant has been calculated by assuming that the origin of the optical luminosity is due to the energy of the radioactive decay of Ni56. Tt is ex- pected that Ni56 is the most abundant nucleus resulting from silicon burning in the supernova shock conditions. The requisite mass of Ni56 (0.14 Mo) gives rise to gamma-ray lines with energies near 1 MeV that should be detectable in young supernova remnants at distances up to a few Mpc. Future detectors aboard satellites should be able to detect events at the rate of about two observable events per year. A few supernova remnants in the Galaxy should be observable at all times in lines following the decay of Ti44.

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