Modeling of two-dimensional effects in hot spot relaxation in laser-produced plasmas

J. L. Feugeas; Ph Nicola; X. Ribeyre; G. Schurtz; V. Tikhonchuk; M. Grech

doi:10.1063/1.2919791

Modeling of two-dimensional effects in hot spot relaxation in laser-produced plasmas

J. L. Feugeas
, Ph Nicola
, X. Ribeyre
, G. Schurtz
, V. Tikhonchuk
, M. Grech

CELIA, Université Bordeaux i, UMR 5107 (CNRS, Bordeaux 1, CEA)
Max Plank Institute for the Physics of Complex Systems

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Two-dimensional numerical simulations of plasma heating and temperature hot spots relaxation are presented in the domain where the diffusive approximation for heat transport fails. Under relevant conditions for laser plasma interactions, the effects of the nonlocality of heat transport on the plasma response are studied comparing the Spitzer-Härm model with several frequently used nonlocal models. The importance of using a high-order numerical scheme to correctly model nonlocal effects is discussed. A significant increase of the temperature relaxation time due to nonlocal heat transport is observed, accompanied by enhanced density perturbations. Applications to plasma-induced smoothing of laser beams are considered.

langue originale	Anglais
Numéro d'article	062701
journal	Physics of Plasmas
Volume	15
Numéro de publication	6
Les DOIs	https://doi.org/10.1063/1.2919791
état	Publié - 9 juil. 2008
Modification externe	Oui

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10.1063/1.2919791

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title = "Modeling of two-dimensional effects in hot spot relaxation in laser-produced plasmas",

abstract = "Two-dimensional numerical simulations of plasma heating and temperature hot spots relaxation are presented in the domain where the diffusive approximation for heat transport fails. Under relevant conditions for laser plasma interactions, the effects of the nonlocality of heat transport on the plasma response are studied comparing the Spitzer-H{\"a}rm model with several frequently used nonlocal models. The importance of using a high-order numerical scheme to correctly model nonlocal effects is discussed. A significant increase of the temperature relaxation time due to nonlocal heat transport is observed, accompanied by enhanced density perturbations. Applications to plasma-induced smoothing of laser beams are considered.",

author = "Feugeas, \{J. L.\} and Ph Nicola and X. Ribeyre and G. Schurtz and V. Tikhonchuk and M. Grech",

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doi = "10.1063/1.2919791",

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AU - Feugeas, J. L.

AU - Nicola, Ph

AU - Ribeyre, X.

AU - Schurtz, G.

AU - Tikhonchuk, V.

AU - Grech, M.

PY - 2008/7/9

Y1 - 2008/7/9

N2 - Two-dimensional numerical simulations of plasma heating and temperature hot spots relaxation are presented in the domain where the diffusive approximation for heat transport fails. Under relevant conditions for laser plasma interactions, the effects of the nonlocality of heat transport on the plasma response are studied comparing the Spitzer-Härm model with several frequently used nonlocal models. The importance of using a high-order numerical scheme to correctly model nonlocal effects is discussed. A significant increase of the temperature relaxation time due to nonlocal heat transport is observed, accompanied by enhanced density perturbations. Applications to plasma-induced smoothing of laser beams are considered.

AB - Two-dimensional numerical simulations of plasma heating and temperature hot spots relaxation are presented in the domain where the diffusive approximation for heat transport fails. Under relevant conditions for laser plasma interactions, the effects of the nonlocality of heat transport on the plasma response are studied comparing the Spitzer-Härm model with several frequently used nonlocal models. The importance of using a high-order numerical scheme to correctly model nonlocal effects is discussed. A significant increase of the temperature relaxation time due to nonlocal heat transport is observed, accompanied by enhanced density perturbations. Applications to plasma-induced smoothing of laser beams are considered.

U2 - 10.1063/1.2919791

DO - 10.1063/1.2919791

M3 - Article

AN - SCOPUS:46349108814

SN - 1070-664X

VL - 15

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 6

M1 - 062701

ER -

Modeling of two-dimensional effects in hot spot relaxation in laser-produced plasmas

Résumé

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