H. Pongracic scite author profile

A B S T R A C TThe stand-off shock formed in the accretion flow on to a stationary wall, such as the surface of a white dwarf, may be thermally unstable, depending on the cooling processes which dominate the post-shock flow. Some processes lead to instability, while others tend to stabilize the shock. We consider competition between the destabilizing influence of thermal bremsstrahlung cooling, and a stabilizing process which is a power law in density and temperature. Cyclotron cooling and processes which are of order 1, 3/2 and 2 in density are considered. The relative efficiency and power-law indices of the second mechanism are varied, and particular effects on the stability properties and frequencies of oscillation modes are examined.

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The formation of binary and multiple star systems

Chapman

Pongracic

Disney

et al. 1992

Nature

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Controlling Penetration

Lattanzio¹,

Monaghan²,

Pongracic³

et al. 1986

SIAM J. Sci. and Stat. Comput.

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H. Pongracic

Binary star formation: accretion-induced rotational fragmentation

Binary star formation: gravitational fragmentation followed by capture

Oscillatory instability of radiative shocks with multiple cooling processes

The formation of binary and multiple star systems

Controlling Penetration

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