Impurity penetration and transport during VH-mode on DIII-D

S.I Lippmann,T.E Evans,G.L Jackson,W.P West

doi:10.1016/s0022-3115(06)80087-5

S.I Lippmann, T.E Evans + Show 2 more

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https://doi.org/10.1016/s0022-3115(06)80087-5

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Journal: Journal of Nuclear Materials	Publication Date: Dec 1, 1992
Citations: 7	License type: other-oa

Affiliation: General Atomics (United States)

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A new modeling effort is made in order to understand the observed relatively low levels of impurity contamination during the VH-mode phase on DIII-D, as compared to those observed during the H-mode phase of selected discharges. The key element is the inclusion of the real 2-D flux surface geometry in the prediction of impurity penetration of sputtered atoms through the scrape-off layer into the core plasma. Of the elements which determine the impurity content in the plasma: sputtering yield, penetration, and core transport, the penetration through the scrape-off layer is found to be the most determinative factor. The low impurity content in VH-mode is attributed to the development of a scrape-off layer with higher density and temperature properties than those normally obtained in H-mode.

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