The response of model and astrophysical thermonuclear flames to curvature and stretch

L. J. Dursi; M. Zingale; A. C. Calder; B. Fryxell; F. X. Timmes; N. Vladimirova; R. Rosner; A. Caceres; D. Q. Lamb; K. Olson; P. M. Ricker; K. Riley; A. Siegel; J. W. Truran

doi:10.1086/377433

The response of model and astrophysical thermonuclear flames to curvature and stretch

L. J. Dursi
, M. Zingale
, A. C. Calder
, B. Fryxell
, F. X. Timmes
, N. Vladimirova
, R. Rosner
, A. Caceres
, D. Q. Lamb
, K. Olson
, P. M. Ricker
, K. Riley
, A. Siegel
, J. W. Truran

Physics and Astronomy

The University of Chicago
NASA Goddard Space Flight Center
University of Illinois at Urbana-Champaign

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Critically understanding the standard candle-like behavior of Type Ia supernovae requires understanding their explosion mechanism. One family of models for Type Ia supernovae begins with a deflagration in a carbon-oxygen white dwarf that greatly accelerates through wrinkling and flame instabilities. While the planar speed and behavior of astrophysically relevant flames is increasingly well understood, more complex behavior, such as the flame'S response to stretch and curvature, has not been extensively explored in the astrophysical literature; this behavior can greatly enhance or suppress instabilities and local flame-wrinkling, which in turn can increase or decrease the bulk burning rate. In this paper, we explore the effects of curvature on both nuclear flames and simpler model flames to understand the effect of curvature on the flame structure and speed.

Original language	English
Pages (from-to)	955-979
Number of pages	25
Journal	Astrophysical Journal
Volume	595
Issue number	2 I
DOIs	https://doi.org/10.1086/377433
State	Published - Oct 1 2003

Keywords

Conduction
Hydrodynamics
Methods: numerical
Nuclear reactions, nucleosynthesis, abundances
Supernovae: general
White dwarfs

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10.1086/377433

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title = "The response of model and astrophysical thermonuclear flames to curvature and stretch",

abstract = "Critically understanding the standard candle-like behavior of Type Ia supernovae requires understanding their explosion mechanism. One family of models for Type Ia supernovae begins with a deflagration in a carbon-oxygen white dwarf that greatly accelerates through wrinkling and flame instabilities. While the planar speed and behavior of astrophysically relevant flames is increasingly well understood, more complex behavior, such as the flame'S response to stretch and curvature, has not been extensively explored in the astrophysical literature; this behavior can greatly enhance or suppress instabilities and local flame-wrinkling, which in turn can increase or decrease the bulk burning rate. In this paper, we explore the effects of curvature on both nuclear flames and simpler model flames to understand the effect of curvature on the flame structure and speed.",

keywords = "Conduction, Hydrodynamics, Methods: numerical, Nuclear reactions, nucleosynthesis, abundances, Supernovae: general, White dwarfs",

author = "Dursi, \{L. J.\} and M. Zingale and Calder, \{A. C.\} and B. Fryxell and Timmes, \{F. X.\} and N. Vladimirova and R. Rosner and A. Caceres and Lamb, \{D. Q.\} and K. Olson and Ricker, \{P. M.\} and K. Riley and A. Siegel and Truran, \{J. W.\}",

year = "2003",

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doi = "10.1086/377433",

language = "English",

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journal = "Astrophysical Journal",

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TY - JOUR

T1 - The response of model and astrophysical thermonuclear flames to curvature and stretch

AU - Dursi, L. J.

AU - Zingale, M.

AU - Calder, A. C.

AU - Fryxell, B.

AU - Timmes, F. X.

AU - Vladimirova, N.

AU - Rosner, R.

AU - Caceres, A.

AU - Lamb, D. Q.

AU - Olson, K.

AU - Ricker, P. M.

AU - Riley, K.

AU - Siegel, A.

AU - Truran, J. W.

PY - 2003/10/1

Y1 - 2003/10/1

N2 - Critically understanding the standard candle-like behavior of Type Ia supernovae requires understanding their explosion mechanism. One family of models for Type Ia supernovae begins with a deflagration in a carbon-oxygen white dwarf that greatly accelerates through wrinkling and flame instabilities. While the planar speed and behavior of astrophysically relevant flames is increasingly well understood, more complex behavior, such as the flame'S response to stretch and curvature, has not been extensively explored in the astrophysical literature; this behavior can greatly enhance or suppress instabilities and local flame-wrinkling, which in turn can increase or decrease the bulk burning rate. In this paper, we explore the effects of curvature on both nuclear flames and simpler model flames to understand the effect of curvature on the flame structure and speed.

AB - Critically understanding the standard candle-like behavior of Type Ia supernovae requires understanding their explosion mechanism. One family of models for Type Ia supernovae begins with a deflagration in a carbon-oxygen white dwarf that greatly accelerates through wrinkling and flame instabilities. While the planar speed and behavior of astrophysically relevant flames is increasingly well understood, more complex behavior, such as the flame'S response to stretch and curvature, has not been extensively explored in the astrophysical literature; this behavior can greatly enhance or suppress instabilities and local flame-wrinkling, which in turn can increase or decrease the bulk burning rate. In this paper, we explore the effects of curvature on both nuclear flames and simpler model flames to understand the effect of curvature on the flame structure and speed.

KW - Conduction

KW - Hydrodynamics

KW - Methods: numerical

KW - Nuclear reactions, nucleosynthesis, abundances

KW - Supernovae: general

KW - White dwarfs

UR - https://www.scopus.com/pages/publications/0142199024

U2 - 10.1086/377433

DO - 10.1086/377433

M3 - Article

AN - SCOPUS:0142199024

SN - 0004-637X

VL - 595

SP - 955

EP - 979

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2 I

ER -

The response of model and astrophysical thermonuclear flames to curvature and stretch

Abstract

Keywords

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