Abstract
The time-of-flight-type neutral particle analyzer has an ability of horizontal scanning from 40 to 100° of the pitch angle. The information from the spatially resolved energy spectrum gives not only the ion temperature but also the information of the particle confinement and the electric field in plasmas. We have been studying the energy distributions at various magnetic configurations in the neutral beam injection (NBI) plasma. The spatially resolved energy spectra can be observed during long discharges of the NBI plasma by continuous scanning of the neutral particle analyzer. The shape of spectra is almost similar from 44° to 53°. However, the spectra from 55° are strongly varied. They reflect the injection pitch angle of the beam. The pitch angle scanning experiment during the long discharge of NBI plasma has also been made under the reversal of the magnetic field direction. NBI2 becomes counter injected with the reversal. We can easily observe the difference between co- and counter injections of NBI. During the electron cyclotron heating in the low-density plasma for the formation of the internal thermal barrier, large neutral particle increase or decease can be observed. The degree of the increase/decrease depends on the energy and the density. The reason for the variation of the particle flux is that the orbit of the trapped particle changes due to the electric field formed by the strong electron cyclotron heating.
Highlights
In helical devices, the particle orbit of the co-injection beam with respect to the direction of the toroidal magnetic field is different from that of the counter injection
The guiding center of the particle orbit is close to the magnetic axis and shifted to the high magnetic field side in the co- and counter injection, respectively
That of the counter injection is localized near the high magnetic field side
Summary
The particle orbit of the co-injection beam with respect to the direction of the toroidal magnetic field is different from that of the counter injection. Another experiment is performed by the highly localized electron cyclotron resonance heating 共ECH兲 during the low density NBI plasma. In this condition, the thermal transport barriers in plasma can be expected. It is important to observe the energy dependence of the pitch-angle distribution to investigate the confinement of high-energy particles For this purpose the neutral particle analyzer should have a wide observation energy range above the maximum energy of neutral beam injection 共NBI兲 共or of particle accelerated by ion cyclotron resonance heating兲 and an ability to separate the particle species of hydrogen, deuterium, and helium ⫺3/⫺4.
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