Icrf heating of hydrogen plasmas with two mode conversion layers

Ye O. Kazakov; D. van Eester; E. Lerche; I. V. Pavlenko; I. O. Girka; B. Weyssow

Icrf heating of hydrogen plasmas with two mode conversion layers

Ye O. Kazakov, D. van Eester, E. Lerche, I. V. Pavlenko, I. O. Girka, B. Weyssow

Laboratory for Plasma Physics

Research output: Contribution to journal › Article › peer-review

Abstract

ICRF mode conversion heating regime is widely used in present-day tokamaks. The theoretically predicted mode conversion enhancement due to the constructive interference of the fast wave reflected from the evanescence layer with a wave reflected from the high-field side cutoff was first experimentally identified in JET in (³He) D experiments. This effect was recently tested in (³He) H plasmas, which is one of the ICRF heating scenarios considered for the non-activated phase of ITER operation. Due to the presence of the intrinsic D-like impurities in JET (e.g., C⁶⁺, ⁴He) the supplementary conversion layer was produced in the plasma that defined the interference conditions. The different behavior of the conversion efficiency observed at various ³He concentrations is analyzed in the paper on the basis of the theory of the fast wave mode conversion in plasmas with two evanescence layers.

Original language	English
Pages (from-to)	37-39
Number of pages	3
Journal	Problems of Atomic Science and Technology
Issue number	6
Publication status	Published - 2010

Cite this

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title = "Icrf heating of hydrogen plasmas with two mode conversion layers",

abstract = "ICRF mode conversion heating regime is widely used in present-day tokamaks. The theoretically predicted mode conversion enhancement due to the constructive interference of the fast wave reflected from the evanescence layer with a wave reflected from the high-field side cutoff was first experimentally identified in JET in (3He) D experiments. This effect was recently tested in (3He) H plasmas, which is one of the ICRF heating scenarios considered for the non-activated phase of ITER operation. Due to the presence of the intrinsic D-like impurities in JET (e.g., C6+, 4He) the supplementary conversion layer was produced in the plasma that defined the interference conditions. The different behavior of the conversion efficiency observed at various 3He concentrations is analyzed in the paper on the basis of the theory of the fast wave mode conversion in plasmas with two evanescence layers.",

author = "Kazakov, \{Ye O.\} and \{van Eester\}, D. and E. Lerche and Pavlenko, \{I. V.\} and Girka, \{I. O.\} and B. Weyssow",

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journal = "Problems of Atomic Science and Technology",

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T1 - Icrf heating of hydrogen plasmas with two mode conversion layers

AU - Kazakov, Ye O.

AU - van Eester, D.

AU - Lerche, E.

AU - Pavlenko, I. V.

AU - Girka, I. O.

AU - Weyssow, B.

PY - 2010

Y1 - 2010

N2 - ICRF mode conversion heating regime is widely used in present-day tokamaks. The theoretically predicted mode conversion enhancement due to the constructive interference of the fast wave reflected from the evanescence layer with a wave reflected from the high-field side cutoff was first experimentally identified in JET in (3He) D experiments. This effect was recently tested in (3He) H plasmas, which is one of the ICRF heating scenarios considered for the non-activated phase of ITER operation. Due to the presence of the intrinsic D-like impurities in JET (e.g., C6+, 4He) the supplementary conversion layer was produced in the plasma that defined the interference conditions. The different behavior of the conversion efficiency observed at various 3He concentrations is analyzed in the paper on the basis of the theory of the fast wave mode conversion in plasmas with two evanescence layers.

AB - ICRF mode conversion heating regime is widely used in present-day tokamaks. The theoretically predicted mode conversion enhancement due to the constructive interference of the fast wave reflected from the evanescence layer with a wave reflected from the high-field side cutoff was first experimentally identified in JET in (3He) D experiments. This effect was recently tested in (3He) H plasmas, which is one of the ICRF heating scenarios considered for the non-activated phase of ITER operation. Due to the presence of the intrinsic D-like impurities in JET (e.g., C6+, 4He) the supplementary conversion layer was produced in the plasma that defined the interference conditions. The different behavior of the conversion efficiency observed at various 3He concentrations is analyzed in the paper on the basis of the theory of the fast wave mode conversion in plasmas with two evanescence layers.

UR - https://www.scopus.com/pages/publications/78650603925

M3 - Article

AN - SCOPUS:78650603925

SN - 1682-9344

SP - 37

EP - 39

JO - Problems of Atomic Science and Technology

JF - Problems of Atomic Science and Technology

IS - 6

ER -

Icrf heating of hydrogen plasmas with two mode conversion layers

Abstract

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