ICRH for core impurity mitigation in JET-ILW | Zendy

E. Lerche | Zendy; M. Goniche | Zendy; P. Jacquet | Zendy; D. Van Eester | Zendy; V. Bobkov | Zendy; L. Colas | Zendy; I. Monakhov | Zendy; F. Rimini | Zendy; A. Czarnecka | Zendy; K. Crombé | Zendy; R. Dümont | Zendy; J. Hobirk | Zendy; Y. Kazakov | Zendy; M.-L. Mayoral | Zendy; L. Meneses | Zendy; J. Mlynář | Zendy; C. Noble | Zendy; I. Nunes | Zendy; J. Ongena | Zendy; V. Petržı́lka | Zendy; M. Reich | Zendy; M. Santala | Zendy; A. Shaw | Zendy; M. Tsalas | Zendy; Jet Contributors | Zendy

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ICRH for core impurity mitigation in JET-ILW

Author(s) -

E. Lerche,

M. Goniche,

P. Jacquet,

D. Van Eester,

V. Bobkov,

L. Colas,

I. Monakhov,

F. Rimini,

A. Czarnecka,

K. Crombé,

R. Dümont,

J. Hobirk,

Y. Kazakov,

M.-L. Mayoral,

L. Meneses,

J. Mlynář,

C. Noble,

I. Nunes,

J. Ongena,

V. Petržı́lka,

M. Reich,

M. Santala,

A. Shaw,

M. Tsalas,

Jet Contributors

Publication year - 2015

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.177

H-Index - 75

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.4936467

Subject(s) - impurity , jet (fluid) , cyclotron , core (optical fiber) , nuclear engineering , ion , materials science , power (physics) , ion cyclotron resonance , mode (computer interface) , atomic physics , physics , mechanics , computer science , engineering , thermodynamics , composite material , quantum mechanics , operating system

Ion cyclotron resonance frequency (ICRF) heating has been an essential component in the development of high power H-mode scenarios in JET-ILW. The steps that were taken for the successful use of ICRF heating in terms of enhancing the power capabilities and optimizing the heating performance in view of core impurity mitigation in these experiments will be reviewed.

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