We present very-high-resolution 1D MHD simulations of the late-stage supernova remnants (SNRs). In the post-adiabatic stage, themagnetic field has an important and significant dynamical effect on the shock dynamics, the flow structure, and hence the acceleration and emission of cosmic rays. We find that the tangential component of the magnetic field provides pressure support that to a fair degree prevents the collapse of the radiative shell and thus limits the total compression ratio of the partially or fully radiative forward shock. A consequence is that the spectra of cosmic rays would not be as hard as in hydrodynamic simulations. We also investigated the effect on the flow profiles of the magnetic-field inclination and a large-scale gradient in the gas density and/or the magnetic field. A positive density gradient shortens the evolutionary stages, whereas a shock obliquity lowers the shock compression. The compression of the tangential component of the magnetic field leads to its dominance in the downstream region of post-adiabatic shocks for a wide range of orientation of the upstream field, which may explain why one preferentially observes tangential radio polarization in old SNRs. As most cosmic rays are produced at late stages of SNR evolution, the post-adiabatic phase and the influence of the magnetic field during it are most important for modeling the cosmic-ray acceleration at old SNRs and the gamma-ray emission from late-stage SNRs interacting with clouds. © 2018 The Author(s) Published by Oxford University Press on behalf of The Royal Astronomical Society.

Petruk, O., Kuzyo, T., Orlando, S., Pohl, M., Miceli, M., Bocchino, F., et al. (2018). Post-adiabatic supernova remnants in an interstellar magnetic field: Oblique shocks and non-uniform environment. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 479(3), 4253-4270 [10.1093/mnras/sty1750].

Post-adiabatic supernova remnants in an interstellar magnetic field: Oblique shocks and non-uniform environment

Miceli, M.;
2018-01-01

Abstract

We present very-high-resolution 1D MHD simulations of the late-stage supernova remnants (SNRs). In the post-adiabatic stage, themagnetic field has an important and significant dynamical effect on the shock dynamics, the flow structure, and hence the acceleration and emission of cosmic rays. We find that the tangential component of the magnetic field provides pressure support that to a fair degree prevents the collapse of the radiative shell and thus limits the total compression ratio of the partially or fully radiative forward shock. A consequence is that the spectra of cosmic rays would not be as hard as in hydrodynamic simulations. We also investigated the effect on the flow profiles of the magnetic-field inclination and a large-scale gradient in the gas density and/or the magnetic field. A positive density gradient shortens the evolutionary stages, whereas a shock obliquity lowers the shock compression. The compression of the tangential component of the magnetic field leads to its dominance in the downstream region of post-adiabatic shocks for a wide range of orientation of the upstream field, which may explain why one preferentially observes tangential radio polarization in old SNRs. As most cosmic rays are produced at late stages of SNR evolution, the post-adiabatic phase and the influence of the magnetic field during it are most important for modeling the cosmic-ray acceleration at old SNRs and the gamma-ray emission from late-stage SNRs interacting with clouds. © 2018 The Author(s) Published by Oxford University Press on behalf of The Royal Astronomical Society.
2018
Petruk, O., Kuzyo, T., Orlando, S., Pohl, M., Miceli, M., Bocchino, F., et al. (2018). Post-adiabatic supernova remnants in an interstellar magnetic field: Oblique shocks and non-uniform environment. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 479(3), 4253-4270 [10.1093/mnras/sty1750].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/342858
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