This title appears in the Scientific Report :
2007
ICRF plasmas for fusions reactor application
ICRF plasmas for fusions reactor application
The ICRF plasma production technique is considered as a promising alternative tool for the following applications in the present and next generation superconducting fusion devices: (i) Wall conditioning in the presence of permanent high magnetic field; (ii) Assistance for the tokamak start-up at low...
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Personal Name(s): | Lyssoivan, A. |
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Koch, R. / Van Eester, D. / Van Schoor, M. / Van Wassenhove, G. / Vervier, M. / Weynants, R. / Buermans, J. / Matthys, T. / Esser, H. G. / Marchuk, O. / Neubauer, O. / Philipps, V. / Sergienko, G. / Bobkov, V. / Fahrbach, H. U. / Hartmann, D. A. / Herrmann, A. / Noterdaeme, J. M. / Rohde, V. / Beaumont, B. / Gauthier, E. / Glazunov, G. P. / Lozin, A. V. / Moiseenko, V. E. / Nazarov, N.I. / Shvets, O. M. / Stepanov, K. N. / Volkov, E. D. / Beigman, I. L. / Vainshtein, L. A. | |
Contributing Institute: |
Plasmaphysik; IEF-4 |
Published in: | Voprosy atomnoj nauki i techniki, 13 (2007) S. 30 - 34 |
Imprint: |
Char'kov
Char'kov Institute of Physics and Technology
2007
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Physical Description: |
30 - 34 |
Document Type: |
Journal Article |
Research Program: |
Fusion |
Series Title: |
Problems of Atomic Science and Technology (= Voprosy atomnoj nauki i techniki = Pytannja atomnoi nauky i techniky), Series Plasma Physics (= Serija Fizika plazmy)
13 |
Subject (ZB): | |
Publikationsportal JuSER |
The ICRF plasma production technique is considered as a promising alternative tool for the following applications in the present and next generation superconducting fusion devices: (i) Wall conditioning in the presence of permanent high magnetic field; (ii) Assistance for the tokamak start-up at low inductive electric field (E-0 similar to 0.3 V/m in ITER); (iii) Target dense plasma production (n(e) >= 10(19) m(-3)) in stellarators. The paper presents a review of the ICRF plasma production technique and its applications in the present-day tokamaks and stellarators. The perspective of the alternative technique applications in ITER is analyzed in the frame of 0-D plasma modeling. |