The interstellar medium in young supernova remnants: key to the production of cosmic X-rays and γ-rays

Abstract

We review recent progress in elucidating the relationship between high-energy radiation and the interstellar medium (ISM) in young supernova remnants (SNRs) with ages of 2000 yr, focusing in particular on RX J1713.7-3946 and RCW 86. Both SNRs emit strong nonthermal X-rays and TeV γ-rays, and they contain clumpy distributions of interstellar gas that includes both atomic and molecular hydrogen. We find that shock-cloud interactions provide a viable explanation for the spatial correlation between the X-rays and ISM. In these interactions, the supernova shocks hit the typically pc-scale dense cores, generating a highly turbulent velocity field that amplifies the magnetic field up to 0.1-1 mG. This amplification leads to enhanced nonthermal synchrotron emission around the clumps, whereas the cosmic-ray electrons do not penetrate the clumps. Accordingly, the nonthermal X-rays exhibit a spatial distribution similar to that of the ISM on the pc scale, while they are anticorrelated at sub-pc scales. These results predict that hadronic γ-rays can be emitted from the dense cores, resulting in a spatial correspondence between the γ-rays and the ISM. The current pc-scale resolution of γ-ray observations is too low to resolve this correspondence. Future γ-ray observations with the Cherenkov Telescope Array will be able to resolve the sub-pc-scale γ-ray distribution and provide clues to the origin of these cosmic γ-rays.

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