The studies of recent JET experiments in H/D?0.85/0.15 plasma (2.9T/2MA) in which neutron rate was enhanced by applying 2.5MW of ICRH using D-(DNBI)-H three-ion scheme are reported. An extensive analysis of this novel heating scenario has been carried out by means of integrated TRANSP/TORIC modelling, and a comprehensive validation of the computed Fast Ion Distribution Function (FI DF) with a range of fast ion diagnostics available at JET is presented. The predicted acceleration of D Neutral Beam Injection (NBI) ions beyond their injection energies and the associated changes in FI DF by RF waves are found to be in good agreement with measured neutron yield and TOFOR neutron spectrometer measurements, as well as with multi-channel neutron camera observations and neutral particle analyser diagnostic. An outlook of the possible applications of the developed technique for future DTE2 studies on JET has been highlighted. Controlled acceleration of TNBI ions in D-rich and DNBI ions in T-rich plasmas to optimal energies can be applied to maximise BT fusion rates and contribute to the success of future DT experiments at JET and ITER as illustrated in this study.
Synergistic ICRH and NBI heating for fast ion generation and maximising fusion rate in mixed plasmas at JET
Kirov K.K.; Kazakov Y.; Nocente M.; Ongena J.; Baranov Y.; Casson F.; Eriksson J.; Giacomelli L.; Hellesen C.; Kiptily V.; Bilato R.; Crombe K.; Dumont R.; Jacquet P.; Johnson T.; Lerche E.; Mantsinen M.; Van Eester D.; Varje J.; Weisen H.
ID | 463217 |
---|---|
DOI | 10.1063/5.0014235 |
PRODUCT TYPE | Conference Proceeding |
LAST UPDATE | 2022-02-17T10:08:26Z |
EU PROJECT | EUROfusion |
---|---|
TITLE | Implementation of activities described in the Roadmap to Fusion during Horizon 2020 through a Joint programme of the members of the EUROfusion consortium |
FOUNDING PROGRAM | H2020 |