SIMBAD references

2015ApJ...800...28Z - Astrophys. J., 800, 28 (2015/February-2)

Resonant amplification of turbulence by the blast waves.

ZANKOVICH A.M. and KOVALENKO I.G.

Abstract (from CDS):

We discuss the idea of whether spherical blast waves can amplify by a nonlocal resonant hydrodynamic mechanism inhomogeneities formed by turbulence or phase segregation in the interstellar medium. We consider the problem of a blast-wave-turbulence interaction in the Linear Interaction Approximation. Mathematically, this is an eigenvalue problem for finding the structure and amplitude of eigenfunctions describing the response of the shock-wave flow to forced oscillations by external perturbations in the ambient interstellar medium. Linear analysis shows that the blast wave can amplify density and vorticity perturbations for a wide range of length scales with amplification coefficients of up to 20, with increasing amplification the larger the length. There also exist resonant harmonics for which the gain becomes formally infinite in the linear approximation. Their orbital wavenumbers are within the range of macro- (l ∼ 1), meso- (l ∼ 20), and microscopic (l > 200) scales. Since the resonance width is narrow (typically, Δl < 1), resonance should select and amplify discrete isolated harmonics. We speculate on a possible explanation of an observed regular filamentary structure of regularly shaped round supernova remnants such as SNR 1572, 1006, or 0509-67.5. Resonant mesoscales found (l ~ 18) are surprisingly close to the observed scales (l ~ 15) of ripples in the shell's surface of SNR 0509-67.5.

Abstract Copyright:

Journal keyword(s): hydrodynamics - ISM: supernova remnants - shock waves - turbulence

Simbad objects: 4

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2021.02.25-22:55:20

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