Plasma turbulence is studied using Doppler reflectometry at the TJ-II stellarator. By scanning the tilt angle of the probing beam, different values of the perpendicular wavenumbers are probed at the reflection layer. In this way, the interaction between zonal flows and turbulence is reported with (a) spatial, (b) temporal and (c) wavenumber resolution for the first time in any magnetic confinement fusion device. We report measurements of the bicoherence across the low to high (L-H) confinement transition at TJ-II. We examine both fast transitions and slow transitions characterized by an intermediate (I) phase. The bicoherence, understood to reflect the non-linear coupling between the perpendicular velocity (zonal flow) and turbulence amplitude, is significantly enhanced in a time window of several tens of milliseconds around the time of the L-H transition. It is found to peak at a specific radial position (slightly inward from the radial electric field shear layer in H-mode), and is associated with a specific perpendicular wavenumber (k(perpendicular to) similar or equal to 6-12 cm(-1), k(perpendicular to)rho(s) similar or equal to 0.8-2). In all cases, the bicoherence is due to the interaction between high frequencies (similar or equal to 1 MHz) and a rather low frequency (less than or similar to 50 kHz), as expected for a zonal flow.

• 出版日期2013-11