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Abstract

In this paper the results of 1-D and 1-1/2-D transport codes in simulating JET discharges and in predicting future JET performance are discussed. Ohmic plasmas are studied with particular emphasis on the possible importance of ion thermal transport, especially at the highest JET densities. The transition from ohmic to auxiliary heated discharges (ICRH) is simulated. Results are compared with observations in JET. Extrapolations to higher levels of additional power are briefly discussed.

Additional information

Authors: TARONI A, JET JOINT UNDERTAKING, ABINGDON (UK);ABELS VAN MAANEN A E P M, JET JOINT UNDERTAKING, ABINGDON (UK);CORE W, JET JOINT UNDERTAKING, ABINGDON (UK);DUECHS D F, JET JOINT UNDERTAKING, ABINGDON (UK);HELLSTEN T, JET JOINT UNDERTAKING, ABINGDON (UK);MUIR D G, JET JOINT UNDERTAKING, ABINGDON (UK);STUBBERFIELD P M, JET JOINT UNDERTAKING, ABINGDON (UK);TIBONE F, JET JOINT UNDERTAKING, ABINGDON (UK);WATKINS M L JET JOINT UNDERTAKING, ABINGDON (UK), JET JOINT UNDERTAKING, ABINGDON (UK)
Bibliographic Reference: 12TH EUROPEAN CONFERENCE ON CONTROLLED FUSION AND PLASMA PHYSICS, BUDAPEST (HUNGARY), SEPT. 2-6, 1985 PP. 13-16 WRITE TO THE PUBLICATIONS OFFICER, JET JOINT UNDERTAKING, ABINGDON, OXON, OX14 3EA (UK), MENTIONING REPORT JET-P(85)10, 1985
Record Number: 1989124058100 / Last updated on: 1987-01-01
Category: PUBLICATION
Available languages: en