Progress towards steady-state operation and real-time control of internal transport barriers in JET

X. Litaudon; A. Bécoulet; F. Crisanti; R.C. Wolf; Yu.F. Baranov; E. Barbato; M. Bécoulet; R. Budny; C. Castaldo; R. Cesario; C.D. Challis; G.D. Conway; M.R. De Baar; P. De Vries; R. Dux; L.G. Eriksson; B. Esposito; R. Felton; C. Fourment; D. Frigione; X. Garbet; R. Giannella; C. Giroud; G. Gorini; N.C. Hawkes; T. Hellsten; T.C. Hender; P. Hennequin; G.M.D. Hogeweij; G.T.A. Huysmans; F. Imbeaux; E. Joffrin; P.J. Lomas; Ph Lotte; P. Maget; J. Mailloux; P. Mantica; M.J. Mantsinen; D. Mazon; D. Moreau; V. Parail; V. Pericoli; E. Rachlew; M. Riva; F. Rimini; Y. Sarazin; B.C. Stratton; T.J.J. Tala; G. Tresset; O. Tudisco; L. Zabeo; K.-D. Zastrow; JET-EFDA contributors

doi:10.1088/0029-5515/43/7/309

Progress towards steady-state operation and real-time control of internal transport barriers in JET

X. Litaudon¹, A. Bécoulet¹, F. Crisanti², R.C. Wolf³, Yu.F. Baranov⁴, E. Barbato², M. Bécoulet¹, R. Budny⁵, C. Castaldo², R. Cesario², C.D. Challis⁴, G.D. Conway⁶, M.R. De Baar⁷, P. De Vries⁷, R. Dux⁶, L.G. Eriksson¹, B. Esposito², R. Felton⁴, C. Fourment¹, D. Frigione², X. Garbet¹, R. Giannella¹, C. Giroud⁷, G. Gorini⁸, N.C. Hawkes⁴, T. Hellsten⁹, T.C. Hender⁴, P. Hennequin¹, G.M.D. Hogeweij⁷, G.T.A. Huysmans¹, F. Imbeaux¹, E. Joffrin¹, P.J. Lomas⁴, Ph Lotte¹, P. Maget¹, J. Mailloux⁴, P. Mantica⁸, M.J. Mantsinen¹⁰, D. Mazon¹, D. Moreau¹, V. Parail⁴, V. Pericoli², E. Rachlew⁹, M. Riva², F. Rimini¹, Y. Sarazin¹, B.C. Stratton⁵, T.J.J. Tala¹⁰, G. Tresset¹, O. Tudisco², L. Zabeo¹, K.-D. Zastrow⁴ and JET-EFDA contributors¹

Published 23 June 2003 • Published under licence by IOP Publishing Ltd
Nuclear Fusion, Volume 43, Number 7 Citation X. Litaudon et al 2003 Nucl. Fusion 43 565 DOI 10.1088/0029-5515/43/7/309

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¹ Association EURATOM-CEA, CEA Cadarache, F-13108 St Paul lez Durance, France

² Associazione EURATOM-ENEA sulla Fusione, Centre Ricerche Frascati, Italy

³ Institut für Plasmaphysik, Association EURATOM-FZJ, D-52425 Jülich, Germany

⁴ UKAEA-EURATOM Association, Culham Science Centre, Abingdon, OX14 3DB, UK

⁵ Princeton Plasma Physics Laboratory, PO Box 451, Princeton, NJ 08543, USA

⁶ Max-Planck-Institut für Plasmaphysik, EURATOM-Assoziation, Garching, Germany

⁷ Ass. EURATOM-FOM, TEC, Cluster, 3430 BE Nieuwegein, The Netherlands

⁸ Instituto di Fisica del Plasma, EURATOM-ENEA-CNR Association, Milan, Italy

⁹ Physics Deptartment, KTH, Association EURATOM/VR, S-10044 Stockholm, Sweden

¹⁰ Association EURATOM-TEKES, VTT Chemical Technology, FIN-02044, Finland

Dates

Received 15 October 2002
Accepted 23 May 2003
Published 23 June 2003

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Abstract

In JET, advanced tokamak research mainly focuses on plasmas with internal transport barriers (ITBs) that are strongly influenced by the current density profile. A previously developed optimized shear regime with low magnetic shear in the plasma centre has been extended to deeply negative magnetic shear configurations. High fusion performance with wide ITBs has been obtained transiently with negative central magnetic shear configuration: H_IPB98(y,2) ∼ 1.9, β_N = 2.4 at I_p = 2.5 MA. At somewhat reduced performance, electron and ion ITBs have been sustained in full current drive operation with 1 MA of bootstrap current: H_IPB98(y,2) ∼ 1, β_N = 1.7 at I_p = 2.0 MA. The ITBs were maintained for up to 11 s for the latter case. This duration, much larger than the energy confinement time (37 times larger), is already approaching a current resistive time. New real-time measurements and feedback control algorithms have been developed and implemented in JET for successfully controlling the ITB dynamics and the current density profile in the highly non-inductive current regime.

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