Dynamics of plasma accumulation and ion losses in the electromagnetic trap 'Jupiter-1A'

Details Dynamics of plasma accumulation and ion losses in the electromagnetic trap 'Jupiter-1A' Dynamics of plasma accumulation and ion losses in the electromagnetic trap 'Jupiter-1A'

Jan 1981

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981ukfiz..26...24s&link_type=abstract

Ukrainskii Fizicheskii Zhurnal, vol. 26, Jan. 1981, p. 24-27. In Russian.

Physics

2

Beam Injection, Beam Plasma Amplifiers, Electron Beams, Magnetically Trapped Particles, Plasma Dynamics, Plasma Heating, Ion Motion, Plasma Density, Radio Frequency Heating

Scientific paper

The experimental data for plasma accumulation and the ion loss rate vs impulse duration of hf energy input in the chamber shows that the plasma density increases to a critical value determined by the plasma Debye radius equality with its linear measure in a magnetic cusp. An additional density increase by 10 to 20% produces a 3 to 4-fold increase in the ion loss rate along the magnetic field; the 'Jupiter-1A' trap optimal regime is characterized by plasma density near its critical value and equivalent conditions for ion output in the magnetic cusp and axial holes.

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