ICRF heating for the non-activated phase of ITER: From inverted minority to mode conversion regime

M. L. Mayoral, P. U. Lamalle, D. Van Eester, P. Beaumont, E. De La Luna, P. De Vries, C. Gowers, R. Felton, J. Harling, V. Kiptily, K. Lawson, M. Laxåback, E. Lerche, P. Lomas, M. J. Mantsinen, F. Meo, J. M. Noterdaeme, I. Nunes, G. Piazza, M. Santala

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

In the initial phase of ITER H plasmas will be used in order to avoid activating the machine. The reference ICRF healing scenarios rely on minority species such as Helium (3He) or deuterium (D). These schemes' distinctive feature comes from the presence of the fast magnetosonic wave ion-ion hybrid resonance/cut-off pair, between the antennas and the minority cyclotron layer. In order to document these unusual heating schemes, ICRF experiments were carried out recently on JET. First, the use of 3He ions in H plasmas was investigated with a sequence of discharges in which 5 MW of ICRF power was coupled to the plasma and the 3He concentration was varied from below 1% up to 10%. The inverted minority heating regime was observed at low concentrations (up to ∼2%). Energetic tails in the 3He distribution were observed with effective temperatures up to 300 keV and central electron temperatures up to 6 keV. At around 2%, a sudden transition was reproducibly observed to the mode conversion regime, in which the ICRF fast wave couples to short wavelength modes, leading to efficient direct electron heating and central electron temperature up to 8 keV. All these experiments systematically used power modulation techniques to assess the radial profiles of the wave absorption by the electrons. Secondly, experiments to study the ICRF heating of D minority ions in H were performed. This heating scheme proved much more difficult since modest quantities of C6+ impurity, which has the same Z/A ratio than the D minority ions, led us directly into the mode conversion regime. This effect preventing any absorption by D ions at minority cyclotron layer, could make the (D)H scenario not suitable for the non-active phase of ITER.

Original languageEnglish
Title of host publicationRADIO FREQUENCY POWER IN PLASMAS
Subtitle of host publication16th Topical Conference on Radio Frequency Power in Plasmas
Pages122-129
Number of pages8
DOIs
Publication statusPublished - 26 Sept 2005
EventRADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas - Park City, UT, United States
Duration: 11 Apr 200513 Apr 2005

Publication series

NameAIP Conference Proceedings
Volume787
ISSN (Print)0094-243X
ISSN (Electronic)1551-7616

Conference

ConferenceRADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas
Country/TerritoryUnited States
CityPark City, UT
Period11/04/0513/04/05

Keywords

  • ICRF
  • Inverted minority heating
  • Mode conversion

Fingerprint

Dive into the research topics of 'ICRF heating for the non-activated phase of ITER: From inverted minority to mode conversion regime'. Together they form a unique fingerprint.

Cite this