Conference paper

Publication year: 2007

Pages: 66-69

Journal: Gao neng wu li yu he wu li: yue kan = High energy physics and nuclear physics

Volume number: 31

ISSN: 0254-3052

Conference: 17th International Workshop on ECR Ion Sources and Their Applications

Publisher: Science Press

Abstract: 
A compact 14.5GHz electron cyclotron resonance (ECR) ion source for the production of slow, multiply charged ions has been constructed, with the plasma-confining magnetic field produced exclusively by permanent magnets. Microwave power of up to 175W in the frequency range from 12.75 to 14.5GHz is transmitted from ground potential via a PTFE window into the water-cooled plasma chamber which can be equipped with an aluminum liner. The waveguide coupling system serves also as biased electrode, and two remotely-controlled gas inlet valves connected via an insulating break permit plasma operation in the gas-mixing mode. A triode extraction system sustains ion acceleration voltages between 1kV and 10kV. The ECR ion source is fully computer-controlled and can be remotely operated from any desired location via Ethernet.

Harvard Citation style: Galutschek, E., Salzborn, E., Aumayr, F. and Winter, H. (2007) Compact, low-cost, 14.5GHz all-permanent magnet field ECR ion source, HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, 31, pp. 66-69

APA Citation style: Galutschek, E., Salzborn, E., Aumayr, F., & Winter, H. (2007). Compact, low-cost, 14.5GHz all-permanent magnet field ECR ion source. HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION. 31, 66-69.