Determination of the Time Evolution of the Electron-Temperature Profile of Reactor-Like Plasmas from the Measurement of Blackbody Electron-Cyclotron Emission

摘要

Plasma characteristics (i.e., n/sub e/ greater than or equal to 1 x 10 exp 13 cm exp -3 , T/sub e/ greater than or equal to 10 exp 7 exp 0 K, B/sub psi/ greater than or equal to 20 kG) in present and future magnetically confined plasma devices, e.g., Princeton Large Torus (PLT) and Tokamak Fusion Test Reactor (TFTR), meet the conditions for blackbody emission near the electron cyclotron frequency and at few harmonics. These conditions, derived from the hot plasma dielectric tensor, have been verified by propagation experiments on PLT and the Princeton Model-C Stellarator. Blackbody emission near the fundamental electron cyclotron frequency and the second harmonic have been observed in PLT and is routinely measured to ascertain the time evolution of the electron temperature profile. These measurements are especially valuable in the study of auxiliary heating of tokamak plasma. Measurement and calibration techniques will also be discussed with special emphasis on our fast-scanning heterodyne receiver concept. (ERA citation 07:045302)