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Simulation and assessment of ion kinetic effects in a direct-drive capsule implosion experiment

The first simulations employing a kinetic treatment of both fuel and shell ions to model inertial confinement fusion experiments are presented, including results showing the importance of kinetic physics processes in altering fusion burn. A pair of direct drive capsule implosions performed at the OMEGA facility with two different gas fills of deuterium, tritium, and helium-3 are analyzed. During implosion shock convergence, highly non-Maxwellian ion velocity distributions and separations in the density and temperature amongst the ion species are observed. Diffusion of fuel into the capsule shell is identified as a principal process that degrades fusion burn performance.

preprint2016arXivOpen access
Ari LeT. J. T. KwanM. J. SchmittH. W. HerrmannS. H. Batha
physics.plasm-ph
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Ari LeT. J. T. KwanM. J. SchmittH. W. HerrmannS. H. Batha

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