Nanotechnology and Precision Engineering (Sep 2023)

Characteristics of the pressure profile in the accelerator on the RF negative ion source at ASIPP

  • Wu Mingshan,
  • Xu Luxiang,
  • Zhou Yanbo,
  • Liang Lizhen,
  • Zheng Yelong

DOI
https://doi.org/10.1063/10.0019383
Journal volume & issue
Vol. 6, no. 3
pp. 033006 – 033006-7

Abstract

Read online

Neutral beam injection (NBI) systems based on negative hydrogen ion sources—rather than the positive ion sources that have typically been used to date—will be used in the future magnetically confined nuclear fusion experiments to heat the plasma. The collisions between the fast negative ions and neutral background gas result in a significant number of high-energy positive ions being produced in the acceleration area, and for the high-power long-pulse operation of NBI systems, this acceleration of positive ions back to the ion source creates heat load and material sputtering on the source backplate. This difficulty cannot be ignored, with the neutral gas density in the acceleration region having a significant impact on the flux density of the backstreaming positive ions. In the work reported here, the pressure gradient in the acceleration region was estimated using an ionization gauge and a straightforward 1D computation, and it was found that once gas traveled through the acceleration region, the pressure dropped by nearly one order of magnitude, with the largest pressure drop occurring at the plasma grid. The computation also revealed that the pressure drop in the grid gaps was substantially smaller than that in the grid apertures.