Confinement of energetic ions in a tokamak plasma at magnetic field in the range of 0.7–1.0 T
2013
We have experimentally studied the influence of toroidal magnetic field (B T) and plasma current (I p) on the capture and confinement of energetic ions (EIs) formed upon ionization of a neutral beam injected in a tokamak. Based on the results of measurements of the flux of 2.45-MeV fusion neutrons, it is concluded that the amount of EIs significantly grows with increasing B T from 0.7 to 1.0 T and Ip from 140 to 180 kA. In addition to the classical Coulomb slowing down, a supplementary channel of EI losses is found that accounts for a 15% decrease in their confinement time.
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