ar X iv : a st ro - p h / 99 09 50 8 v 1 3 0 Se p 19 99 Distributed Burning in Type Ia Supernovae : A Statistical Approach
نویسندگان
چکیده
Received ; accepted – 2 – ABSTRACT We present a statistical model which shows the influence of turbulence on a thermonuclear flame propagating in C+O white dwarf matter. Based on a Monte Carlo description of turbulence, it provides a method for investigating the physics in the so-called distributed burning regime. Using this method we perform numerical simulations of turbulent flames and show that in this particular regime the flamelet model for the turbulent flame velocity loses its validity. In fact, at high turbulent intensities burning in the distributed regime can lead to a deceleration of the turbulent flame and thus induces a competing process to turbulent effects that cause a higher flame speed. It is also shown that in dense C+O matter turbulent heat transport is described adequately by the Peclet number, Pe, rather than by the Reynolds number, which means that flame propagation is decoupled from small-scale turbulence. Finally, at the onset of our results we argue that the available turbulent energy in an exploding C+O white dwarf is probably too low in order to make a deflagration to detonation transition possible. Subject headings: methods: statistical – nuclear reactions – stars: supernovae: general – turbulence – 3 –
منابع مشابه
ar X iv : a st ro - p h / 99 09 17 7 v 1 1 0 Se p 19 99 Status of VLBI Observations at 1 mm Wavelength and Future Prospects
متن کامل
ar X iv : a st ro - p h / 97 09 25 4 v 1 2 5 Se p 19 97 Explosion Diagnostics of Type Ia Supernovae from Early Infrared Spectra
Models of infrared spectra of Type Ia supernovae around maximum light are presented. The underlying dynamic models are delayed detonation explosions in Chandrasekhar mass carbon/oxygen white dwarfs. In combination with the radiative transport codes employed here, these models provide plausible fits to the optical spectra of “normal” Type Ia supernova. Two independent radiative transport codes a...
متن کاملar X iv : a st ro - p h / 97 11 20 1 v 1 1 8 N ov 1 99 7 Type Ia Supernovae : An Examination of Potential Progenitors and the Redshift Distribution
We examine the possibility that supernovae type Ia (SN Ia) are produced by white dwarfs accreting from Roche-lobe filling evolved companions, under the assumption that a strong optically thick stellar wind from accretor is able to stabilize the mass transfer. We show that if a mass transfer phase on a thermal timescale precedes a nuclear burning driven phase, then such systems (of which the sup...
متن کامل