Kiran Eiden, Michael Zingale, Alice Harpole, Donald Willcox, Yuri Cavecchi, Max P. Katz
Published 2019-12-10Version 1
We investigate the structure of laterally-propagating flames through the highly-stratified burning layer in an X-ray burst. Two-dimensional hydrodynamics simulations of flame propagation are performed through a rotating plane-parallel atmosphere, exploring the structure of the flame. We discuss the approximations needed to capture the length and time scales at play in an X-ray burst and describe the flame acceleration observed. Our studies complement other multidimensional studies of burning in X-ray bursts.
Comments: Submitted to ApJ
NICER Observes the Effects of an X-Ray Burst on the Accretion Environment in Aql X-1
Dynamics of Laterally Propagating Flames in X-ray Bursts. II. Realistic Burning & Rotation
Examining the Relationship Between the Persistent Emission and the Accretion Rate During a Type I X-ray Burst
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