SXR measurements of Resistive Wall Mode behavior in NSTX

A multi-energy soft X-ray (ME-SXR) array has been used for the determination of time and space-resolved emissivity profiles during stabilized resistive wall mode (RWM) experiments in NSTX. The main purpose of this study is to distinguish whether the changes on the plasma response ($T_{e}$, $n_{e}$, $n_{Z}$) correspond to the observation of a stabilized RWM or to the effect of the Resonant Field Amplification (RFA). Kinetic measurements of the RFA due to stable RWMs were tested using a single frequency $n=1$ traveling waveform in which the peak-to-peak amplitude was changed by an order of magnitude; neon injection was used to increase the signal-to-noise ratio of the ME-SXR diagnostic. The effect of the RFA on the kinetic profiles was observed and correlated with a suite of diagnostics including that of a toroidally displaced SXR array for $n=1$ RWM identification. This work was supported by the US DoE grant No. DE-FG02-99ER5452 at JHU and DoE-PPPL Contract No. DE-AC02-09CH11466.