Regimes of expansion of a collisional plasma into a vacuum

C. Thaury; P. Mora; J. C. Adam; A. H́ron

doi:10.1063/1.3206940

Regimes of expansion of a collisional plasma into a vacuum

C. Thaury
, P. Mora
, J. C. Adam
, A. H́ron

CNRS

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

Résumé

The effect of elastic Coulomb collisions on the one-dimensional expansion of a plasma slab is studied in the classical limit, using an electrostatic particle-in-cell code. Two regimes of interest are identified. For a collision rate of few hundreds of the inverse of the expansion characteristic time τ_e, the electron distribution function remains isotropic and Maxwellian with a homogeneous temperature, during all the expansion. In this case, the expansion can be approached by a three-dimensional version of the hybrid model developed by Mora [P. Mora, Phys. Rev. E 72, 056401 (2005)]. When the collision rate becomes somewhat greater than 104 τ e -1, the plasma is divided in two parts: an inner part which expands adiabatically as an ideal gas and an outer part which undergoes an isothermal expansion.

langue originale	Anglais
Numéro d'article	093104
journal	Physics of Plasmas
Volume	16
Numéro de publication	9
Les DOIs	https://doi.org/10.1063/1.3206940
état	Publié - 12 oct. 2009

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abstract = "The effect of elastic Coulomb collisions on the one-dimensional expansion of a plasma slab is studied in the classical limit, using an electrostatic particle-in-cell code. Two regimes of interest are identified. For a collision rate of few hundreds of the inverse of the expansion characteristic time τe, the electron distribution function remains isotropic and Maxwellian with a homogeneous temperature, during all the expansion. In this case, the expansion can be approached by a three-dimensional version of the hybrid model developed by Mora [P. Mora, Phys. Rev. E 72, 056401 (2005)]. When the collision rate becomes somewhat greater than 104 τ e -1, the plasma is divided in two parts: an inner part which expands adiabatically as an ideal gas and an outer part which undergoes an isothermal expansion.",

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N2 - The effect of elastic Coulomb collisions on the one-dimensional expansion of a plasma slab is studied in the classical limit, using an electrostatic particle-in-cell code. Two regimes of interest are identified. For a collision rate of few hundreds of the inverse of the expansion characteristic time τe, the electron distribution function remains isotropic and Maxwellian with a homogeneous temperature, during all the expansion. In this case, the expansion can be approached by a three-dimensional version of the hybrid model developed by Mora [P. Mora, Phys. Rev. E 72, 056401 (2005)]. When the collision rate becomes somewhat greater than 104 τ e -1, the plasma is divided in two parts: an inner part which expands adiabatically as an ideal gas and an outer part which undergoes an isothermal expansion.

AB - The effect of elastic Coulomb collisions on the one-dimensional expansion of a plasma slab is studied in the classical limit, using an electrostatic particle-in-cell code. Two regimes of interest are identified. For a collision rate of few hundreds of the inverse of the expansion characteristic time τe, the electron distribution function remains isotropic and Maxwellian with a homogeneous temperature, during all the expansion. In this case, the expansion can be approached by a three-dimensional version of the hybrid model developed by Mora [P. Mora, Phys. Rev. E 72, 056401 (2005)]. When the collision rate becomes somewhat greater than 104 τ e -1, the plasma is divided in two parts: an inner part which expands adiabatically as an ideal gas and an outer part which undergoes an isothermal expansion.

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Regimes of expansion of a collisional plasma into a vacuum

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