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@InProceedings{941,
AUTHOR = {Huber, A. and Andrew, Ph. and Coad, P. and Corrigan, G. and Erents, K. and Fundamenski, W. and Huber, V. and Jachmich, S. and Korotkov, A. and Matthews, G.F. and Mertens, PH. and Philipps, V. and Pitts, R. and Rapp, J. and Schweer, B. and Sergienko, G. and Stamp, M. and Contributors, JET},
TITLE = {{Modelling JET Divertor Physics with the EDGE2D Code}},
YEAR = {2005},
MONTH = {27 June - 1 July},
VOLUME = {29C},
PAGES = {P-2.0.112},
SERIES = {Europhysics Conference Abstracts},
ADDRESS = {Tarragona, Spain},
ORGANIZATION = {32nd EPS Plasma Physics Conference},
URL = {http://www.iop.org/Jet/fulltext/EFDC050241.pdf},
ABSTRACT = {Most single-null divertor tokamak experiments show strong in-out asymmetries in particle and heat fluxes connected to asymmetries in divertor density, temperature and radiation. As shown in many divertor tokamaks [1-4] and recently on JET [5,6], the imbalances strongly depend on the direction of the toroidal magnetic field (BT) and are thus most probably a result of particle cross-field drifts. Experimentally observed outer-inner divertor power asymmetry PTouter/PTinner could not be explained by the asymmetry in the tomographically resolved divertor radiation alone [6]. Unequal power sharing between the two targets is most likely caused by the larger outboard area, enhanced radial transport on low field side (which is independent of theB{\"i}¿½B-direction) and classical drift effects which reverse with the B{\"i}¿½B-direction. This contribution presents analysis of experimental results using the EDGE2D/NIMBUS code.},
ANNOTE = {BDSK-URL-1 : http://www.iop.org/Jet/fulltext/EFDC050241.pdf}
}
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