Some numerical aspects of the conservative PSM scheme in a 4D drift-kinetic code.

The purpose of this work is simulation of magnetised plasmas in the ITER project framework. In this context, kinetic Vlasov-Poisson like models are used to simulate core turbulence in the tokamak in a toroidal geometry. This leads to heavy simulations because a 6D dimensional problem has to be solved, even if reduced to a 5D in so called gyrokinetic models. Accurate schemes, parallel algorithms need to be designed to bear these simulations. This paper describes the numerical studies to improve robustness of the conservative PSM scheme in the context of its development in the GYSELA code. In this paper, we only consider the 4D drift-kinetic model which is the backbone of the 5D gyrokinetic models and relevant to build a robust and accurate numerical method.

Keywords

numerical simulation conservative scheme maximum principle plasma turbulence

Domains

Numerical Analysis [math.NA]

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article_numaspects_CPC.pdf (1.19 Mo)

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Jean-Philippe Braeunig : Connect in order to contact the contributor

https://hal.science/inria-00435203

Submitted on : Saturday, March 9, 2013-3:23:19 PM

Last modification on : Saturday, April 27, 2024-3:10:43 AM

Long-term archiving on: Sunday, April 2, 2017-10:49:54 AM

Dates and versions

inria-00435203 , version 1 (26-11-2009)

inria-00435203 , version 2 (09-03-2013)

Identifiers

HAL Id : inria-00435203 , version 2
ARXIV : 1303.2238

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Jean-Philippe Braeunig, Nicolas Crouseilles, Virginie Grandgirard, Guillaume Latu, Michel Mehrenberger, et al.. Some numerical aspects of the conservative PSM scheme in a 4D drift-kinetic code.. 2011. ⟨inria-00435203v2⟩

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