ECE temperature fluctuations associated with magnetic islands and real-time identification and control

An important focus of present research on thermonuclear fusion based on magnetic confinement is the control of rotating magnetic islands of low helical mode numbers m,n that are the nonlinear stage of resistive instabilities developing at magnetic surfaces where q=m/n. These perturbations are often driven by external resonant "error fields" or mode coupling effects and maintained by local distortions of the current profile. The islands can be reduced in width or completely suppressed by a current driven by electron cyclotron waves (ECCD) accurately located within the island. A requisite for an effective control action is the ability of identifying the relevant state variables (radial location, island amplitude, frequency and phase) in "real time" and vary accordingly the control variables (wave beam power modulation and direction). Traditionally Magnetohtydrodynamic (MHD) instabilities are monitored by external magnetic signals, that however give no information about the radial location of the perturbation within the plasma. Here we describe the design of a real time diagnostics/control device using an original algorithm for processing Electron Cyclotron Emission signals to monitor temperature fluctuations and EC wave power deposition.