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DOI: 10.1051/0004-6361:20054094
C+O detonations in thermonuclear supernovae: interaction with previously burned material
A. Maier and J. C. NiemeyerLehrstuhl für Astronomie, Universität Würzburg, Am Hubland, 97074 Würzburg, Germany
(Received 23 August 2005 / Accepted 29 December 2005 )
Abstract
In the context of explosion models for type Ia Supernovae, we present
one- and two-dimensional simulations of fully resolved detonation
fronts in degenerate C+O White Dwarf matter including clumps of
previously burned material. The ability of detonations to survive the
passage through sheets of nuclear ashes is tested as a function of the
width and composition of the ash region. We show that detonation fronts
are quenched by microscopically thin obstacles with
little sensitivity to the exact ash composition. Front-tracking
models for detonations in macroscopic explosion simulations need to
include this effect in order to predict the amount of unburned
material in delayed detonation scenarios.
Key words: stars: supernovae: general -- hydrodynamics -- methods: numerical
© ESO 2006
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