Multiscale interaction between a large scale magnetic island and small scale turbulence

Abstract

Multiscale interaction between the magnetic island and turbulence has been demonstrated through simultaneous two-dimensional measurements of turbulence and temperature and flow profiles. The magnetic island and turbulence mutually interact via the coupling between the electron temperature (Te) gradient, the Te turbulence, and the poloidal flow. The Te gradient altered by the magnetic island is peaked outside and flattened inside the island. The Te turbulence can appear in the increased Te gradient regions. The combined effects of the Te gradient and the the poloidal flow shear determine two-dimensional distribution of the Te turbulence. When the reversed poloidal flow forms, it can maintain the steepest Te gradient and the magnetic island acts more like a electron heat transport barrier. Interestingly, when the Te gradient, the Te turbulence, and the flow shear increase beyond critical levels, the magnetic island turns into a fast electron heat transport channel, which directly leads to the minor disruption.