Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1569236 | Journal of Nuclear Materials | 2007 | 5 Pages |
Abstract
High-resolution quadrature reflectometer measurements of density fluctuation levels have been obtained on DIII-D for H-mode edge pedestal studies. Initial results are presented from the L-H transition to the first ELM for two cases: (i) a low pedestal beta discharge, in which density turbulence in the pedestal has little change during the ELM-free phase, and (ii) a high pedestal beta discharge in which both density and magnetic turbulence are observed to increase before the first ELM. These high beta data are consistent with the existence of electromagnetic turbulence suggested by some transport models. During Type-I ELM cycles, when little magnetic turbulence can be observed, pedestal turbulence increases just after an ELM crash and then decreases before next ELM strikes, in contrast to a drop after ELM crash and then it re-grows when strong magnetic turbulence shows similar behavior. Clear ELM precursors are observed on ⩽20% of Type-I ELMs observed to date.
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Authors
G. Wang, W.A. Peebles, E.J. Doyle, T.L. Rhodes, L. Zeng, X. Nguyen, T.H. Osborne, P.B. Snyder, G.J. Kramer, R. Nazikian, R.J. Groebner, K.H. Burrell, A.W. Leonard, M.E. Fenstermacher, E.J. Strait,