TeV Gamma Rays Expected from Supernova Remnants in Different Uniform Interstellar Media

Abstract

Calculations of the expected TeV γ-ray emission, produced by accelerated cosmic rays (CRs) in nuclear collisions, from supernova remnants evolving in a uniform interstellar medium (ISM) are presented. The aim is to study the sensitivity of γ-ray production to a physical parameter set. Apart from its general proportionality to NH, it is shown that the γ-ray production essentially depends upon the ratio of the CR diffusion coefficient to a critical value crit=10(B0/5 μG)(NH/0.3 cm-3)-1/3B, where B0 and NH are the magnetic field and hydrogen number density of the ISM, and B denotes the Bohm diffusion coefficient. If is of the same order or lower than crit, then the peak TeV γ-ray flux in the Sedov evolutionary phase, normalized to a distance of 1 kpc, is about 10-10(NH/0.3 cm-3) photons cm-2 s-1. For a CR diffusion coefficient that is significantly larger than crit, the CR cutoff energy is less than 10 TeV and the expected γ-ray flux at 1 TeV is considerably below the presently detectable level of 10-12 photons cm-2 s-1. The same is of course true for a SNR in the rarified, so-called hot ISM.

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