Title :
Plasma instability in ECR heated ion sources
Author :
Pu, Yi-Kang ; Halverson, W.
Abstract :
Summary form only given. In an experimental program on Constance B and Tara Anchor at the MIT Plasma Fusion Center, electron cyclotron resonance (ECR)-heated plasmas in magnetic quadrupole mirrors were investigated. Experiments were conducted at microwave frequencies between 10.5 and 18 GHz and ECR heating powers between 1 and 5 kW. It is found that the confinement of highly charged ions along the magnetic field lines is principally electrostatic; in the perpendicular direction, ion diffusion varies approximately as B-2, although at rates considerably greater than classical. Increasing ECR frequency and heating power produces higher densities of multiply charged ions, although strong low-frequency instabilities were observed which affected ion confinement. A theoretical model suggests that the instability is of the drift-wave type. A qualitative comparison between the instability model and experimental results shows good agreement
Keywords :
ion sources; magnetic mirrors; plasma heating; plasma instability; 1 to 5 kW; 10.5 to 18 GHz; Constance B; ECR heated ion sources; ECR heating powers; MIT Plasma Fusion Center; Tara Anchor; drift-wave instability; electron cyclotron resonance; electrostatic confinement; highly charged ions; ion diffusion; low-frequency instabilities; magnetic quadrupole mirrors; microwave frequencies; multiply charged ions;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110711
