Kinetic model of the COMPASS tokamak SOL | Zendy

D. Tskhakaya | Zendy; Jiřı́ Adámek | Zendy; M. Dimitrova | Zendy; K. Hromasová | Zendy; J. Seidl | Zendy; M. Šos | Zendy; P. Vondráček | Zendy

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Kinetic model of the COMPASS tokamak SOL

Author(s) -

D. Tskhakaya,

Jiřı́ Adámek,

M. Dimitrova,

K. Hromasová,

J. Seidl,

M. Šos,

P. Vondráček

Publication year - 2020

Publication title -

nuclear materials and energy

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.324

H-Index - 25

ISSN - 2352-1791

DOI - 10.1016/j.nme.2020.100893

Subject(s) - divertor , tokamak , plasma , kinetic energy , electron , ion , atomic physics , electron temperature , compass , materials science , physics , nuclear physics , classical mechanics , quantum mechanics

In this work we report on results of kinetic modelling of the COMPASS tokamak SOL. COMPASS is a middle size (R= 0.56 m) machine equipped with different edge diagnostics [1]. Due to its size and availability of large set of edge diagnostic data, COMPASS represents a perfect candidate for full size kinetic modelling SOL with the ability of direct comparison of the simulation results with plasma edge diagnostic measurements [2].

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