The dynamic instability of adiabatic blast waves
- NASA/Fermilab Astrophysics Center, Batavia, IL (USA) Texas Univ., Austin (USA)
Adiabatic blastwaves, which have a total energy injected from the center E varies as t{sup q} and propagate through a preshock medium with a density {rho}{sub E} varies as r{sup {omega}} are described by a family of similarity solutions. Previous work has shown that adiabatic blastwaves with increasing or constant postshock entropy behind the shock front are susceptible to an oscillatory instability, caused by the difference between the nature of the forces on the two sides of the dense shell behind the shock front. This instability sets in if the dense postshock layer is sufficiently thin. The stability of adiabatic blastwaves with a decreasing postshock entropy is considered. Such blastwaves, if they are decelerating, always have a region behind the shock front which is subject to convection. Some accelerating blastwaves also have such region, depending on the values of q, omega, and gamma where gamma is the adiabatic index. However, since the shock interface stabilizes dynamically induced perturbations, blastwaves become convectively unstable only if the convective zone is localized around the origin or a contact discontinuity far from the shock front. On the other hand, the contact discontinuity of accelerating blastwaves is subject to a strong Rayleigh-Taylor instability. The frequency spectra of the nonradial, normal modes of adiabatic blastwaves have been calculated. The results have been applied to the shocks propagating through supernovae envelopes. It is shown that the metal/He and He/H interfaces are strongly unstable against the Rayleigh-Taylor instability. This instability will induce mixing in supernovae envelopes. In addition the implications of this work for the evolution of planetary nebulae is discussed. 37 refs.
- OSTI ID:
- 5867919
- Journal Information:
- Astrophysical Journal; (USA), Vol. 368; ISSN 0004-637X
- Country of Publication:
- United States
- Language:
- English
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640102* - Astrophysics & Cosmology- Stars & Quasi-Stellar
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