Low frequency heating and flow driven by the dynamic ergodic divertor in tokamaks

A. G. Elfimov, D. W. Faulconer, K. H. Finken, R. M.O. Galvão, A. A. Ivanov, R. Koch, S. Yu Medvedev, R. Weynants

Research output: Contribution to journalArticlepeer-review

Abstract

The profile and dissipation of the field excited by dynamic ergodic divertor (DED) coils in tokamak plasmas are calculated, and an estimate is made of the poloidal/toroidal velocities driven by this field. The coils are idealized as an inboard sheet current composed of a toroidal sequence of helical line current segments expanded in Fourier series with poloidal/toroidal mode numbers M/N, and mode amplitudes depending on feeding. Numerical calculations with cylindrical and toroidal codes show maxima of field dissipation due to Alfvén wave mode conversion effect taking place at the rational magnetic surfaces where q = M/N. The effects of toroidicity and ion collisions in the dielectric tensor in the upper DED frequency range described (f = 5-10 kHz) are found to be very important in absorption calculations. At the q = 3 resonant magnetic surface typical for DED coil design, it is estimated that ponderomotive forces produced by 20 kW of dissipation can drive local toroidal and poloidal flows of respective orders 8 km s-1 and 10 km s-1 in the TEXTOR tokamak.

Original languageEnglish
Pages (from-to)S83-S92
JournalNuclear Fusion
Volume44
Issue number6
DOIs
Publication statusPublished - Jun 2004

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