We examine how the characteristics of Supernova remnant (SNR) shocks evolve in a non-uniform
background with a non-isotropic ejection using the MHD code of Athena++. As an example, the
remnant SN1006 is modelled using various scenarios. The turbulent density and magnetic field in
the background interstellar medium (ISM) are assumed to have a Kolmogorov spectrum. Using
the spherical harmonic function ππ,π (π, π) as a basis, we model the non-isotropic ejection also by
a Kolmogorov-like spectrum in (l,m). We consider cases where the ejecta speed in one direction
differs significantly from other directions by adding a Gaussian profile to the ejection profile.
Simulation results are compared to cases of an isotropic supernova explosion in both a uniform
and non-uniform background. We find that the morphology of the SNR shock looks noticeably
different at earlier times for different scenarios. In later times, βΌ 1, 000 years, the differences
become smaller. Synthetic synchrotron radiation maps for different scenarios are obtained and
compared to observations.
Evolution of a Non-Isotropic SN remnant in a Turbulent Background Medium
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Pre-published on:
July 25, 2023
Published on:
September 27, 2024
Abstract
DOI: https://doi.org/10.22323/1.444.0135
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Copyright owned by the author(s) under the term of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.