29 June 2026 to 3 July 2026
EICC, Edinburgh
Europe/London timezone

The Rayleigh-Taylor instability with foams

Not scheduled
20m
EICC, Edinburgh

EICC, Edinburgh

150 Morrison St, Edinburgh EH3 8EE
Poster Presentation Inertial Confinement Fusion (BPIF)

Description

We analyse the behaviour of the Rayleigh-Taylor instability (RTI) in the presence of a foam. Such a problem may be relevant, for example, to some inertial confinement fusion (ICF) scenarios such as foams within the capsule or lining the inner hohlraum wall. The foam displays 3 different phases: by order of increasing stress, it is first elastic, then plastic, and then fractures. Only the elastic and plastic phases can be subject to a linear analysis of the instability. The growth rate is analytically computed in these 2 phases, in terms of the micro-structure of the foam. In the first, elastic, phase, the RTI can be stabilized for some wavelengths. In this elastic phase, a homogenous foam model overestimates the growth because it ignores the elastic nature of the foam. Although this result is derived for a simplified foam model, it is likely valid for most of them. Besides the ICF context considered here, our results could be relevant for many fields of science.

Authors

Antoine Bret (Universidad de Castilla-La Mancha) Mrs Audrey DeVault (MIT) Mrs Skylar Dannhoff (MIT) Prof. Maria Gatu Johnson (MIT) Prof. Chikang Li (MIT) Prof. Johan Frenje (MIT)

Presentation materials

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