One-dimensional, multi-fluid model of the plasma wall transition. 1,Hot electrons; Elektronski vir

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One-dimensional, multi-fluid model of the plasma wall transition. 1, Hot electrons [Elektronski vir]

Gyergyek, Tomaž ...

The plasma-wall transition in a plasma containing singly charged positive ions and two groups of electrons is studied with a one-dimensional steady-state multifluid model, which is presented in some ... detail. When the temperature and the initial density ratio between the two groups of electrons are varied, a transition between the two types of solutions to the model equations is observed. When the density and temperature of the hot electrons are above certain critical values, a high solution is observed. If the ion mass is decreased, these critical values increase. However, this effect only occurs with artificially small ion masses, which are significantly lower than the proton mass. In the high solution, the potential drop is determined by the hot electrons and is greater in absolute terms than in the low solution, where it is determined by the base electron population. The transition between the low and high solutions is very sharp if a neutrality condition is imposed. However, if the neutrality condition is replaced by the Poisson equation, the transition becomes blurred and the solutions exhibit oscillations. The temperature profiles of the ions are analyzed, and it is confirmed that the ion sound and the ion fluid velocity become equal at the breaking point of the plasma neutrality. It is shown how the ion source term, the initial ion velocity, and the initial electric field are found to be self-consistent. The density profiles of the negatively biased particles resulting from the fluid equations deviate very little those of from the Boltzmann-distributed particles, even if the corresponding source terms are quite large.

Source: AIP advances [Elektronski vir]. - ISSN 2158-3226 (Vol. 14, iss. 4, [aricle no.] 045201, Apr. 2024, 22 str.)

Type of material - e-article ; adult, serious

Publish date - 2024

Language - english

COBISS.SI-ID - 191198211

Link(s):
https://pubs.aip.org/aip/adv/article/14/4/045201/3280401/One-dimensional-multi-fluid-model-of-the-plasma
Repository of the University of Ljubljana – RUL
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Author
Gyergyek, Tomaž | Kos, Leon, 1966- | Costea, Stefan | Gyergyek, Miha | Kovačič, Jernej, 1982-

Author	Gyergyek, Tomaž ...
Title	One-dimensional, multi-fluid model of the plasma wall transition. 1, Hot electrons [Elektronski vir]
Publication date	2024-04-01
COBISS.SI-ID	191198211
Publication version in repository	Publisher's version
Publication licence	Creative Commons Attribution 4.0 International
Embargo	Unidentified

Project(s) from which the publication was funded

Title	Acronym	Project ID	Funder
Fuzijske tehnologije		P2-0405-2019	Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Reaktorska fizika		P2-0073-2020	Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije

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https://pubs.aip.org/aip/adv/article/14/4/045201/3280401/One-dimensional-multi-fluid-model-of-the-plasma
https://repozitorij.uni-lj.si/IzpisGradiva.php?id=156109

Costs of publication

Cost type	Total cost	Payments
APC – Article Processing Charge	1703.28 €	1703.28 € : Univerza v Ljubljani, Fakulteta za elektrotehniko

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Year	Impact factor		Edition		Category		Classification
Year	JCR	SNIP	JCR	SNIP	JCR	SNIP	JCR	SNIP

Links to authors' personal bibliographies	Links to information on researchers in the SICRIS system
Gyergyek, Tomaž	10401
Kos, Leon, 1966-	12725
Costea, Stefan	53298
Gyergyek, Miha
Kovačič, Jernej, 1982-	30680

Source: Personal bibliographies and: SICRIS

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