H S Park scite author profile

H S Park

2Publications

55Citation Statements Received

138Citation Statements Given

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132

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Lawrence Livermore National Laboratory

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Basic scalings for collisionless-shock experiments in a plasma without pre-imposed magnetic field

Ryutov

Kugland

Park

et al. 2012

Plasma Phys. Control. Fusion

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In this paper, scaling relations pertinent to collisionless-shock experiments are derived. Two oppositely directed, non-relativistic interpenetrating plasma streams are considered. A full set of collisionless Vlasov-Maxwell equations is used to describe the plasma streams. Two scaling parameters are identified for those streams in which the initial temperature is small compared with the final temperature. If the scaling parameters are held constant between the two systems, the knowledge of the behavior of one of the systems allows for a direct prediction of behavior of the other, irrespective of differences in, for example, the plasma density. This similarity covers both hydrogen and non-hydrogen ion species. Reduced versions suitable for assessing electrostatically mediated and magnetically mediated (Weibel-like) models of the shocks are described. In these limiting cases, the number of scaling parameters reduces to one, making the similarity quite broad. The presence of these scaling relations can serve as a basis for making comparisons between models and selecting the most plausible models. A brief discussion is presented of the constraints associated with the role of intra-jet collisions, whose frequency may be non-negligible even if the collisions between the particles of two jets are very rare.

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Laser-driven shock waves for the study of extreme matter states

Benuzzi‐Mounaix

Kœnig

Ravasio

et al. 2006

Plasma Phys. Control. Fusion

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During the last ten years, the ability of high power lasers to generate high energy density shocks has made them a reliable tool to study extreme states of matter. These states of matter are relevant in many important physics areas such as astrophysics, planetology and ICF physics. Here, we present some representative studies performed by using a driven laser shock: melting of iron at pressures relevant for geophysics, developments of new techniques to measure the density of highly compressed matter and a study of a radiative shock.

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H S Park

Basic scalings for collisionless-shock experiments in a plasma without pre-imposed magnetic field

Laser-driven shock waves for the study of extreme matter states

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