ICRH options for JET-ILW DTE2 operation

JET Contributors

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdragepeer review

Samenvatting

Ion cyclotron resonance heating (ICRH) plays an important role in high performance JET-ILW plasma discharges, both for keeping the heavy impurities away from the plasma centre as for increasing the core ion temperature to boost fusion performance. While the former is needed in all high-performance discharges for steady state operation, the latter will be particularly important in the next-coming JET Deuterium-Tritium campaign (DTE2). Currently, the workhorse for impurity control in high power D plasmas is fundamental H minority ICRH (with simultaneous ω=2ωc harmonic D heating), which leads to localized core electron heating that induces turbulence (flatter density profiles) as well as peaked electron temperatures. For fusion power enhancement, dominant bulk ion heating and RF acceleration of the NBI ions to appropriate energies would be preferable and theoretical predictions suggest that ion heating is also effective for core impurity screening. In this paper, we discuss the basic modeling results of different ICRF scenarios available for the DTE2 campaign in JET-ILW, highlighting their main properties in terms of the RF absorption of the various species, their slowing-down properties and their impact on high-Z impurity transport. Correctly modeling the wave absorption, slowing-down and collisional energy redistribution of the simultaneously RF-heated species in a DT plasma mix with important neutral-beam injection (NBI) is numerically challenging and is outside the scope of this paper. The simplified calculations presented here are rather intended to give the reader an overview of the ICRH options for JET-DTE2 with references to the state-of-the-art ICRH modeling given throughout the paper.

Originele taal-2Engels
Titel23rd Topical Conference on Radiofrequency Power in Plasmas
RedacteurenPaul T. Bonoli, Robert I. Pinsker, Xiaojie Wang
UitgeverijAmerican Institute of Physics Inc.
ISBN van elektronische versie9780735420137
DOI's
StatusGepubliceerd - 16 sep. 2020
Evenement23rd Topical Conference on Radiofrequency Power in Plasmas - Hefei, China
Duur: 14 mei 201917 mei 2019

Publicatie series

NaamAIP Conference Proceedings
Volume2254
ISSN van geprinte versie0094-243X
ISSN van elektronische versie1551-7616

Congres

Congres23rd Topical Conference on Radiofrequency Power in Plasmas
Land/RegioChina
StadHefei
Periode14/05/1917/05/19

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