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Theory of intense ion beam acceleration

Journal Article · · Phys. Fluids, v. 19, no. 1, pp. 52-59
DOI:https://doi.org/10.1063/1.861327· OSTI ID:4091269
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The application of high voltage pulse power techniques to the production of intense ion beams is of great interest for plasma confinement, plasma heating, and pellet implosion. The main problem is that application of a high voltage to a simple anode--cathode gap will draw both an electron current from the cathode and an ion current from the anode, and the electrons will receive most of the input energy due to their smaller mass. Two methods of efficient intense ion beam production are considered: (1) the magnetically insulated diode and (2) the ''reflex-triode''. The relativistic equilibria, the ion current dependence on accelerating voltage, its dependence on applied magnetic field (in the first method), and its variation due to a velocity distribution of the electrons (in the second method) are determined. For both methods the ion current can be substantially enhanced with respect to the Langmuir--Child current due to the presence of the negative electron space charge. In the case of magnetic insulation this enhancement increases as the magnetic field is lowered and diverges as it approaches the critical value past which electrons can traverse the gap. For the reflex triode the enhancement is increased by relativistic electron effects and by a population of electrons with energies less than the full voltage across the gap. (AIP)
Research Organization:
Department of Electrical Engineering, Cornell University, Ithaca, New York 14853
Sponsoring Organization:
USDOE
NSA Number:
NSA-33-020045
OSTI ID:
4091269
Journal Information:
Phys. Fluids, v. 19, no. 1, pp. 52-59, Journal Name: Phys. Fluids, v. 19, no. 1, pp. 52-59; ISSN PFLDA
Country of Publication:
United States
Language:
English

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