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F. K. Röpke et al. 2007 ApJ 660 1344 doi:10.1086/512769

Off-Center Ignition in Type Ia Supernovae. I. Initial Evolution and Implications for Delayed Detonation

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F. K. Röpke1,2, S. E. Woosley1 and W. Hillebrandt1,2

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Abstract References Cited By
[1]

High-resolution Simulations of Convection Preceding Ignition in Type Ia Supernovae Using Adaptive Mesh Refinement

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Asymmetry and the Nucleosynthetic Signature of Nearly Edge-lit Detonation in White Dwarf Cores

David A. Chamulak et al.  The Astrophysical Journal 2012  744 27
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Nuclear astrophysics: the unfinished quest for the origin of the elements

Jordi José and Christian Iliadis  Reports on Progress in Physics 2011  74 096901
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The Convective Phase Preceding Type Ia Supernovae

M. Zingale et al.  The Astrophysical Journal 2011  740 8
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Burning Thermals in Type Ia Supernovae

A. J. Aspden et al.  The Astrophysical Journal 2011  738 94
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Sub-Chandrasekhar Mass Models for Supernovae

S. E. Woosley and Daniel Kasen  The Astrophysical Journal 2011  734 38
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[7]

Turbulent Oxygen Flames in Type Ia Supernovae

A. J. Aspden et al.  The Astrophysical Journal 2011  730 144
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[8]

Surface Detonations in Double Degenerate Binary Systems Triggered by Accretion Stream Instabilities

James Guillochon et al.  The Astrophysical Journal Letters 2010  709 L64
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Spectropolarimetric Signatures of Clumpy Supernova Ejecta

K. T. Hole et al.  The Astrophysical Journal 2010  720 1500
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Evaluating Systematic Dependencies of Type Ia Supernovae: The Influence of Deflagration to Detonation Density

Aaron P. Jackson et al.  The Astrophysical Journal 2010  720 99
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[11]

Nucleosynthesis in Two-Dimensional Delayed Detonation Models of Type Ia Supernova Explosions

K. Maeda et al.  The Astrophysical Journal 2010  712 624
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[12]

Nebular Spectra and Explosion Asymmetry of Type Ia Supernovae

K. Maeda et al.  The Astrophysical Journal 2010  708 1703
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[13]

Evaluating Systematic Dependencies of Type Ia Supernovae: The Influence of Progenitor 22Ne Content on Dynamics

Dean M. Townsley et al.  The Astrophysical Journal 2009  701 1582
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[14]

Initiation of the Detonation in the Gravitationally Confined Detonation Model of Type Ia Supernovae

Ivo R. Seitenzahl et al.  The Astrophysical Journal 2009  700 642
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[15]

Spontaneous Initiation of Detonations in White Dwarf Environments: Determination of Critical Sizes

Ivo R. Seitenzahl et al.  The Astrophysical Journal 2009  696 515
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[16]

Pulsating Reverse Detonation Models of Type Ia Supernovae. I. Detonation Ignition

Eduardo Bravo and Domingo García-Senz  The Astrophysical Journal 2009  695 1244
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[17]

Study of the Detonation Phase in the Gravitationally Confined Detonation Model of Type Ia Supernovae

Casey A. Meakin et al.  The Astrophysical Journal 2009  693 1188
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[18]

Large-scale simulations of buoyancy-driven turbulent nuclear burning

D M Townsley et al  Journal of Physics: Conference Series 2008  125 012009
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[19]

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
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[20]

Low Mach Number Modeling of Type Ia Supernovae. III. Reactions

A. S. Almgren et al.  The Astrophysical Journal 2008  684 449
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[21]

Three-Dimensional Simulations of the Deflagration Phase of the Gravitationally Confined Detonation Model of Type Ia Supernovae

G. C. Jordan IV et al.  The Astrophysical Journal 2008  681 1448
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[22]

Detailed Spectral Modeling of a Three-dimensional Pulsating Reverse Detonation Model: Too Much Nickel

E. Baron et al.  The Astrophysical Journal 2008  672 1038
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[23]

Type Ia supernovae

S E Woosley et al  Journal of Physics: Conference Series 2007  78 012081
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[24]

A Three-Dimensional Deflagration Model for Type Ia Supernovae Compared with Observations

F. K. Röpke et al.  The Astrophysical Journal 2007  668 1132
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[25]

Flame Evolution During Type Ia Supernovae and the Deflagration Phase in the Gravitationally Confined Detonation Scenario

D. M. Townsley et al.  The Astrophysical Journal 2007  668 1118
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[26]

Type Ia Supernovae: Burning and Detonation in the Distributed Regime

S. E. Woosley  The Astrophysical Journal 2007  668 1109
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[27]

Flame-driven Deflagration-to-Detonation Transitions in Type Ia Supernovae?

F. K. Röpke  The Astrophysical Journal 2007  668 1103
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Detonating Failed Deflagration Model of Thermonuclear Supernovae. II. Comparison to Observations

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