Journal
BRAZILIAN JOURNAL OF PHYSICS
Volume 51, Issue 1, Pages 82-89Publisher
SPRINGER
DOI: 10.1007/s13538-020-00815-1
Keywords
Fast particles; Specific pressure; Reversed shear; Double-tearing mode
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The study analyzed the impact of fast particle specific pressure on the instability of the double tear mode and used simulations to explore the physical mechanism of its impact.
In the advanced Tokamak magnetic field configuration, the instability of the double tear mode excited by the diamagnetic shear configuration plays an important role. At the same time, due to the fusion reaction and auxiliary heating means, a large number of fast particles will be generated. The existence of fast particles will affect the growth of double tear mode. In the context of resistive magnetic fluids, the role of fast particle specific pressure in the instability of the double tear mode was analyzed, and the CLT-K program was used to simulate the instability of the fast particle specific pressure to the double-tearing mode to explore the physical mechanism of its impact.
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