Omega 60 experiments of Rayleigh-Taylor instability growth in the highly non-linearly stage: results and future directions
ORAL
Abstract
Potential flow models predict that a Rayleigh-Taylor unstable system will reach a terminal velocity (and constant Froude number). When the density contrast of the two fluids is small, numerical simulations show a re-acceleration of Rayleigh-Taylor Instability (RTI) growth and higher Froude in the late nonlinear stage. We have conducted a series of experiments at Omega 60 to measure single-mode RTI growth to the latest times possible, for both high- and low-Atwood number systems. Experimental results, comparisons with simulations, and future directions are discussed here.
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Presenters
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Laura Elgin
Univ of Michigan - Ann Arbor
Authors
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Laura Elgin
Univ of Michigan - Ann Arbor
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Timothy A Handy
Univ of Michigan - Ann Arbor
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Guy Malamud
Univ of Michigan - Ann Arbor, Nuclear Research Center Negev, Israel, Univ of Michigan - Ann Arbor, Univ of Michigan - Ann Arbor, NRCN
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Channing M Huntington
Lawrence Livermore National Lab, Lawrence Livermore Natl Lab, LLNL
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Sallee R. Klein
Univ of Michigan - Ann Arbor, University of Michigan
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Matthew Trantham
Univ of Michigan - Ann Arbor, University of Michigan, Ann Arbor, MI, 48109
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R. Paul Drake
Univ of Michigan - Ann Arbor, University of Michigan, Ann Arbor, MI, 48109
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Assaf Shimony
NRCN, Nuclear Research Center Negev, Israel
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Carolyn C Kuranz
Univ of Michigan - Ann Arbor, University of Michigan, Ann Arbor, MI, 48109