Add to ORKGWe extend a low Mach number hydrodynamics method developed for terrestrial combustion, to the study of thermonuclear flames in Type Ia supernovae. We discuss the differences between 2-D and 3-D Rayleigh-Taylor unstable flame simulations, and give detailed diagnostics on the turbulence, showing that the kinetic energy power spectrum obeys Bolgiano-Obukhov statistics in 2-D, but Kolmogorov statistics in 3-D. Preliminary results from 3-D reacting bubble calculations are shown, and their implications for ignition are discussed. © 2005 IOP Publishing Ltd
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...
Planar flames are intrinsically unstable in open domains due to the thermal expansion across the bur...
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...
A Type Ia supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
A Type la supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
A Type Ia supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen...
A Type la supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
We present the results of three-dimensional hydrodynamical simulations of the subsonic thermonuclea...
We present the results of three-dimensional hydrodynamical simulations of the subsonic thermonuclea...
The large range of time and length scales involved in type Ia supernovae (SN Ia) requires the use of...
Planar flames are intrinsically unstable in open domains due to the thermal expansion across the bur...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of t...
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...
Planar flames are intrinsically unstable in open domains due to the thermal expansion across the bur...
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...
A Type Ia supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
A Type la supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
A Type Ia supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen...
A Type la supernova explosion likely begins as a nuclear runaway near the center of a carbon-oxygen ...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of th...
We present the results of three-dimensional hydrodynamical simulations of the subsonic thermonuclea...
We present the results of three-dimensional hydrodynamical simulations of the subsonic thermonuclea...
The large range of time and length scales involved in type Ia supernovae (SN Ia) requires the use of...
Planar flames are intrinsically unstable in open domains due to the thermal expansion across the bur...
Flame instabilities play a dominant role in accelerating the burning front to a large fraction of t...
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...
Planar flames are intrinsically unstable in open domains due to the thermal expansion across the bur...
Recent progress in modeling type Ia supernovae by means of 3-dimensional hydrodynamic simulations a...