Conservative global gyrokinetic toroidal full- f five-dimensional Vlasov simulation

Conservative global gyrokinetic toroidal full- f five-dimensional Vlasov simulation

A new conservative global gyrokinetic toroidal full- f five-dimensional Vlasov simulation (GT5D) is developed using a novel non-dissipative conservative finite difference scheme. The scheme guarantees numerical stability by satisfying relevant first principles in the modern gyrokinetic theory, and e...

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Bibliographic Details
Published in:Computer physics communications Vol. 179; no. 6; pp. 391 - 403
Main Authors: Idomura, Yasuhiro, Ida, Masato, Kano, Takuma, Aiba, Nobuyuki, Tokuda, Shinji
Format: Journal Article
Language:English
Published: Elsevier B.V 15-09-2008
Subjects:
Gyrokinetic simulation
Non-dissipative finite difference
Vlasov simulation
δf Particle-In-Cell simulation
Vlasov simulation
Gyrokinetic simulation
52.35.Ra
Non-dissipative finite difference
δf Particle-In-Cell simulation
52.65.Tt
52.30.Gz
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Summary:A new conservative global gyrokinetic toroidal full- f five-dimensional Vlasov simulation (GT5D) is developed using a novel non-dissipative conservative finite difference scheme. The scheme guarantees numerical stability by satisfying relevant first principles in the modern gyrokinetic theory, and enables robust and accurate simulations of tokamak micro-turbulence. GT5D is verified through comparisons of zonal flow damping tests, linear analyses of ion temperature gradient driven (ITG) modes, and nonlinear ITG turbulence simulations against a global gyrokinetic toroidal δf particle code. In the comparison, global solutions of the ITG turbulence are identified quantitatively by using two gyrokinetic codes based on particle and mesh approaches.
ISSN:0010-4655
1879-2944
DOI:10.1016/j.cpc.2008.04.005