P. M. Schoch scite author profile

The application of time-delay-estimation techniques to two-dimensional measurements of density fluctuations, obtained with beam emission spectroscopy in DIII-D ͓J. L. Luxon, Nucl. Fusion 42, 614 ͑2002͔͒ plasmas, has provided temporally and spatially resolved measurements of the turbulence flow-field. Features that are characteristic of self-generated zonal flows are observed in the radial region 0.85рr/aр1.0. These features include a coherent oscillation ͑approximately 15 kHz͒ in the poloidal flow of density fluctuations that has a long poloidal wavelength, possibly m ϭ0, narrow radial extent (k r I Ͻ0.2), and whose frequency varies monotonically with the local temperature. The approximate effective shearing rate, dv /dr, of the flow is of the same order of magnitude as the measured nonlinear decorrelation rate of the turbulence, and the density fluctuation amplitude is modulated at the frequency of the observed flow oscillation. Some phase coherence is observed between the higher wavenumber density fluctuations and low frequency poloidal flow fluctuations, suggesting a Reynolds stress contribution. These characteristics are consistent with predicted features of zonal flows, specifically identified as geodesic acoustic modes, observed in 3-D Braginskii simulations of core/edge turbulence.

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Strong Nonlocal Effects in a Tokamak Perturbative Transport Experiment

Gentle

et al. 1995

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An experimental counter-example to the local transport paradigm

et al. 1995

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The response of a tokamak discharge to a sharp drop in edge temperature differs significantly from that expected from typical local transport models in several important respects. Laser ablation of carbon induces large (ΔT/T≤70%), rapid (<200 μs) electron temperature drops in the outermost region of the plasma, r/a≥0.9. This cold pulse proceeds through the outer plasma (r/a≥0.75), rapidly compared with power balance or sawtooth predictions. However, the pulse shrinks markedly thereafter, disappearing near r/a∼0.5. Within r/a∼0.3, the temperature rises promptly. The results are inconsistent with conventional local transport models; a nonlocal phenomenology, in which transport coefficients increase in the edge and decrease in the core, is suggested. The turbulence levels measured with a heavy ion beam probe increase near the edge but are unchanged in the core.

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P. M. Schoch

Experimental characterization of coherent, radially-sheared zonal flows in the DIII-D tokamak

Strong Nonlocal Effects in a Tokamak Perturbative Transport Experiment

An experimental counter-example to the local transport paradigm

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