Edge plasma electrostatic fluctuation and anomalous transport characteristics in the Sino-united spherical tokamak

Abstract

In this paper, the edge plasma parameters, including the electron temperature (Te), electron density (ne), plasma potential (ϕp), radial electric field (Er) and the corresponding fluctuations in the Sino-united spherical tokamak (SUNIST) have been systematically measured using Langmuir probe arrays. The characteristics of the edge electrostatic fluctuations and the turbulence-induced transport are experimentally investigated. The results show that a naturally formed Er × Bϕ poloidal velocity shear layer (VSL) exists near the radial location of the limiter. Wavenumber spectrum analyses show that edge fluctuations have a radial propagation character of the drift wave turbulence, with a characteristic radial phase velocity vphr ∼ 0.7 km s−1 in the scrape-off-layer and vphr ∼ 0.9–1.4 km s−1 at plasma edge, suggesting that the edge turbulence may originate from the core and propagate to the edge in an intermittent pattern. A radial profile of the toroidal flow velocity Mach number has been observed whose maximum is just located at the VSL position, which may imply a possible relation between the poloidal shear flow and the toroidal plasma flow in SUNIST.