The Astrophysical Journal
Volume 668
Number 2
Create an alert
RSS this journal
F. K. Röpke 2007 ApJ 668 1103 doi:10.1086/520830
Flame-driven Deflagration-to-Detonation Transitions in Type Ia Supernovae?
FREE ISSUEF. K. Röpke1,2
Show affiliations- [1]
-
Constraining Type Ia Supernova Models: SN 2011fe as a Test Case
F. K. Röpke et al. The Astrophysical Journal Letters 2012 750 L19
IOPscience - [2]
-
Type Ia Supernovae as Sites of the p-process: Two-dimensional Models Coupled to Nucleosynthesis
C. Travaglio et al. The Astrophysical Journal 2011 739 93
IOPscience - [3]
-
Sub-Chandrasekhar Mass Models for Supernovae
S. E. Woosley and Daniel Kasen The Astrophysical Journal 2011 734 38
IOPscience - [4]
-
Flames in Type Ia Supernova: Deflagration-detonation Transition in the Oxygen-burning Flame
S. E. Woosley et al. The Astrophysical Journal 2011 734 37
IOPscience - [5]
-
Turbulent Oxygen Flames in Type Ia Supernovae
A. J. Aspden et al. The Astrophysical Journal 2011 730 144
IOPscience - [6]
-
Simplified Hydrostatic Carbon Burning in White Dwarf Interiors
Francisco Förster et al. The Astrophysical Journal Supplement Series 2010 190 334
IOPscience - [7]
-
Nucleosynthesis in Two-Dimensional Delayed Detonation Models of Type Ia Supernova Explosions
K. Maeda et al. The Astrophysical Journal 2010 712 624
IOPscience - [8]
-
Turbulence in a Three-Dimensional Deflagration Model For Type Ia Supernovae. II. Intermittency and the Deflagration-to-Detonation Transition Probability
W. Schmidt et al. The Astrophysical Journal 2010 710 1683
IOPscience - [9]
-
Type Ia Supernovae: Calculations of Turbulent Flames Using the Linear Eddy Model
S. E. Woosley et al. The Astrophysical Journal 2009 704 255
IOPscience - [10]
-
Turbulence in a Three-Dimensional Deflagration Model for Type Ia Supernovae. I. Scaling Properties
F. Ciaraldi-Schoolmann et al. The Astrophysical Journal 2009 696 1491
IOPscience - [11]
-
Numerical simulation of low Mach number reacting flows
S E Woosely et al Journal of Physics: Conference Series 2008 125 012012
IOPscience - [12]
-
Thermonuclear supernovae: a multi-scale astrophysical problem challenging numerical simulations and visualization
F K Röpke and R Bruckschen New Journal of Physics 2008 10 125009
IOPscience - [13]
-
Turbulence-Flame Interactions in Type Ia Supernovae
A. J. Aspden et al. The Astrophysical Journal 2008 689 1173
IOPscience - [14]
-
The Effect of Turbulent Intermittency on the Deflagration to Detonation Transition in Supernova Ia Explosions
Liubin Pan et al. The Astrophysical Journal 2008 681 470
IOPscience - [15]
-
Type Ia Supernovae: Burning and Detonation in the Distributed Regime
S. E. Woosley The Astrophysical Journal 2007 668 1109
IOPscience
-
Flame-driven Deflagration-to-Detonation Transitions in Type Ia Supernovae?
F. K. Röpke 2007 ApJ 668 1103
-
Higgs mass bounds in a triplet model
Jeffrey R. Forshaw et al JHEP10(2001)007
-
Measurements of Ω and Λ from 42 High-Redshift Supernovae
S. Perlmutter et al. 1999 ApJ 517 565
-
Flame Evolution During Type Ia Supernovae and the Deflagration Phase in the Gravitationally Confined Detonation Scenario
D. M. Townsley et al. 2007 ApJ 668 1118
-
Ultra-High-Energy Neutrino Scattering onto Relic Light Neutrinos in the Galactic Halo as a Possible Source of the Highest Energy Extragalactic Cosmic Rays
D. Fargion et al. 1999 ApJ 517 725
-
Three-Dimensional Simulations of the Deflagration Phase of the Gravitationally Confined Detonation Model of Type Ia Supernovae
G. C. Jordan IV et al. 2008 ApJ 681 1448
-
On integrability of classical superstrings in AdS5 × S5
Luis Fernando Alday et al JHEP07(2005)002
-
A Three-Dimensional Deflagration Model for Type Ia Supernovae Compared with Observations
F. K. Röpke et al. 2007 ApJ 668 1132
-
A giant natural TPC (500 km)3 to observe extremely high energy cosmic particles - JEM EUSO telescope on International Space Station
Y Takahashi 2007 J. Phys.: Conf. Ser. 65 012022
-
Propagation of Ultra-High-Energy Cosmic Rays above 1019 eV in a Structured Extragalactic Magnetic Field and Galactic Magnetic Field
Hajime Takami et al. 2006 ApJ 639 803