Open AccessStochastic Ion Heating in a Field-reversed Configuration Geometry by Rotating Magnetic Fields
Author(s) -
and A.H. Glasser Cohen A.S. Landsman
Publication year - 2007
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/963547
Subject(s) - magnetic field , geometry , ion , rotating magnetic field , field (mathematics) , physics , mechanics , classical mechanics , mathematics , quantum mechanics , pure mathematics
Ion heating by application of rotating magnetic fields (RMF) to a prolate field-reversed configuration(FRC) is explored by analytical and numerical techniques. For odd-parity RMF (RMFo), perturbation analysis shows ions in figure-8 orbits gain energy at resonances of the RMFo frequency, ωR, with the figure-8 orbital frequency, ω. Since figure-8 orbits tend to gain the most energy from the RMF and are unlikely to escape in the cusp region (where most losses occur), they are optimal candidates for rapid stochastic heating, as compared to cyclotron and betatron orbits. Comparisons are made between heating caused by even- and odd-parity RMFs and between heating in currently operating and in reactor-scale FRC devices
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