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W2775682616 abstract "We present kinetic two-dimensional Vlasov-Fokker-Planck simulations, including both self-consistent magnetic fields and ablating ion outflow, of a planar ablating foil subject to nonuniform laser irradiation. Even for small Hall parameters ($ensuremath{omega}{ensuremath{tau}}_{ei}ensuremath{lesssim}0.05$) self-generated magnetic fields are sufficient to invert and enhance pressure perturbations. The mode inversion is caused by a combination of the Nernst advection of the magnetic field and the Righi-Leduc heat flux. Nonlocal effects modify these processes. The mechanism is robust under plasma conditions tested; it is amplitude independent and occurs for a broad spectrum of perturbation wavelengths, ${ensuremath{lambda}}_{p}=10--100phantom{rule{0.28em}{0ex}}ensuremath{mu}mathrm{m}$. The ablating plasma response to a dynamically evolving speckle pattern perturbation, analogous to an optically smoothed beam, is also simulated. Similar to the single-mode case, self-generated magnetic fields increase the degree of nonuniformity at the ablation surface by up to an order of magnitude and are found to preferentially enhance lower modes due to the resistive damping of high mode number magnetic fields." @default.
W2775682616 created "2017-12-22" @default.
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W2775682616 date "2018-08-22" @default.
W2775682616 modified "2023-09-27" @default.
W2775682616 title "Enhancement of pressure perturbations in ablation due to kinetic magnetized transport effects under direct-drive inertial confinement fusion relevant conditions" @default.
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W2775682616 doi "https://doi.org/10.1103/physreve.98.021201" @default.
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