Stability of contact discontinuities in electrostatic hybrid-and full-vlasov simulations

Naru Tsujine; Takayuki Haruki; Takayuki Umeda; Yasuhiro Nariyuki; Masahiro Sato

doi:10.1585/PFR.15.1401002

Stability of contact discontinuities in electrostatic hybrid-and full-vlasov simulations

Naru Tsujine, Takayuki Haruki, Takayuki Umeda, Yasuhiro Nariyuki, Masahiro Sato

Research output: Contribution to journal › Article › peer-review

Abstract

The stability of contact discontinuities was studied by means of one-dimensional electrostatic (ES) hybridand full-Vlasov simulations with the initial parameter based on observational data. The ES hybrid-Vlasov simulations show that the sharp gradient of the ion number density is generated at the early stage and is subsequently maintained for a long term. On the other hand, the sharp gradient is absent in the ES full-Vlasov simulation. The generalized Ohm's law shows that the electron pressure gradient accounts for the electric field on the ion time scale in both ES hybrid-and full-Vlasov simulations. It is shown that there is a difference in the time evolution of the electron pressure between the ES hybrid-and full-Vlasov simulations, which is mainly caused by the electron heat flux.

Original language	English
Article number	1002
Journal	Plasma and Fusion Research
Volume	15
DOIs	https://doi.org/10.1585/PFR.15.1401002
State	Published - 2020

Keywords

Contact discontinuity
Electron heat flux
Electron pressure
Generalized ohm's law
Hybrid simulation
Vlasov simulation

ASJC Scopus subject areas

Condensed Matter Physics

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10.1585/PFR.15.1401002

Cite this

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title = "Stability of contact discontinuities in electrostatic hybrid-and full-vlasov simulations",

abstract = "The stability of contact discontinuities was studied by means of one-dimensional electrostatic (ES) hybridand full-Vlasov simulations with the initial parameter based on observational data. The ES hybrid-Vlasov simulations show that the sharp gradient of the ion number density is generated at the early stage and is subsequently maintained for a long term. On the other hand, the sharp gradient is absent in the ES full-Vlasov simulation. The generalized Ohm's law shows that the electron pressure gradient accounts for the electric field on the ion time scale in both ES hybrid-and full-Vlasov simulations. It is shown that there is a difference in the time evolution of the electron pressure between the ES hybrid-and full-Vlasov simulations, which is mainly caused by the electron heat flux.",

keywords = "Contact discontinuity, Electron heat flux, Electron pressure, Generalized ohm's law, Hybrid simulation, Vlasov simulation",

author = "Naru Tsujine and Takayuki Haruki and Takayuki Umeda and Yasuhiro Nariyuki and Masahiro Sato",

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year = "2020",

doi = "10.1585/PFR.15.1401002",

language = "英語",

volume = "15",

journal = "Plasma and Fusion Research",

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TY - JOUR

T1 - Stability of contact discontinuities in electrostatic hybrid-and full-vlasov simulations

AU - Tsujine, Naru

AU - Haruki, Takayuki

AU - Umeda, Takayuki

AU - Nariyuki, Yasuhiro

AU - Sato, Masahiro

PY - 2020

Y1 - 2020

N2 - The stability of contact discontinuities was studied by means of one-dimensional electrostatic (ES) hybridand full-Vlasov simulations with the initial parameter based on observational data. The ES hybrid-Vlasov simulations show that the sharp gradient of the ion number density is generated at the early stage and is subsequently maintained for a long term. On the other hand, the sharp gradient is absent in the ES full-Vlasov simulation. The generalized Ohm's law shows that the electron pressure gradient accounts for the electric field on the ion time scale in both ES hybrid-and full-Vlasov simulations. It is shown that there is a difference in the time evolution of the electron pressure between the ES hybrid-and full-Vlasov simulations, which is mainly caused by the electron heat flux.

AB - The stability of contact discontinuities was studied by means of one-dimensional electrostatic (ES) hybridand full-Vlasov simulations with the initial parameter based on observational data. The ES hybrid-Vlasov simulations show that the sharp gradient of the ion number density is generated at the early stage and is subsequently maintained for a long term. On the other hand, the sharp gradient is absent in the ES full-Vlasov simulation. The generalized Ohm's law shows that the electron pressure gradient accounts for the electric field on the ion time scale in both ES hybrid-and full-Vlasov simulations. It is shown that there is a difference in the time evolution of the electron pressure between the ES hybrid-and full-Vlasov simulations, which is mainly caused by the electron heat flux.

KW - Contact discontinuity

KW - Electron heat flux

KW - Electron pressure

KW - Generalized ohm's law

KW - Hybrid simulation

KW - Vlasov simulation

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DO - 10.1585/PFR.15.1401002

M3 - 学術論文

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VL - 15

JO - Plasma and Fusion Research

JF - Plasma and Fusion Research

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Stability of contact discontinuities in electrostatic hybrid-and full-vlasov simulations

Abstract

Keywords

ASJC Scopus subject areas

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