Density Fluctuation Enhancement During RMP ELM-Suppressed Discharges

Fluctuation behavior changes dramatically over the radial range $0.6 < r/a < 1.0$ during ELM-suppressed phases of H-mode discharges with externally applied resonant magnetic perturbations (RMPs) on DIII-D. The 2D spatiotemporal characteristics of density fluctuations during ELM suppression are characterized with beam emission spectroscopy and exhibit a broadband structure from 80$-$400 kHz. The fluctuation power increases by up to one order of magnitude in the mid-core region $(0.6 < r/a < 0.8)$, with more modest increases in the pedestal region. The increase in turbulence coincides with the ELM-suppressed phases, which typically start a few 100 ms after the application of a radial magnetic field. The radial and poloidal correlation lengths of the increased fluctuations are a few centimeters, typical of long-wavelength turbulence. The increased fluctuations appear to be related to observed profile changes, reduction of the line integrated density, and increased radial particle transport.