Observation of reduced core electron temperature fluctuations and intermediate wavenumber density fluctuations in H-mode plasmas

L. Schmitz, A. E. White, G. Wang, J. C. Deboo, J. S. Degrassie, G. R. McKee, J. C. Hillesheim, W. A. Peebles, T. L. Rhodes, T. A. Carter, E. D. Doyle, L. Zeng, K. H. Burrell, C. C. Petty, J. Kinsey, W. A. Solomon, G. M. Staebler

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Abstract

In this paper, we report observations of reduced core electron temperature and intermediate-scale density fluctuations in H-mode. Electron temperature fluctuation levels are observed to decrease from L-mode levels ( for kρs < 0.5 as measured by correlation electron cyclotron emission radiometry) by at least a factor of four in H- and quiescent H-mode regimes in the DIII-D tokamak (r/a = 0.7). Linear stability calculations (using the trapped gyro-Landau fluid (TGLF) code) indicate that the observed temperature fluctuations are associated with L-mode ITG turbulence which is shear-stabilized at the L- to H-mode transition. Recent results from DIII-D provide the first experimental evidence that, in addition, intermediate-scale turbulence (0.5 < kρs ≤ 3) is reduced at the L-H transition. A 30-40% prompt reduction (r/a ≥ 0.7) has been found at the L-H transition in co-injected medium density plasmas, with a larger decrease (≥75%) observed near the pedestal top. Experimental results and TGLF calculations indicate that intermediate/small scale turbulence persists in H-mode at a reduced amplitude (0.6 ≤ r/a ≤ 1) and may substantially contribute to the residual anomalous H-mode electron heat transport.

Original languageEnglish
Article number095004
JournalNuclear Fusion
Volume49
Issue number9
DOIs
StatePublished - 2009
Externally publishedYes

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