Negative hydrogen ion yields at plasma grid surface in a negative hydrogen ion source

Abstract

Negative hydrogen (H - ) ion yield from the plasma grid due to incident hydrogen ions and neutrals has been evaluated with the surface collision cascade model, ACAT (Atomic Collision in Amorphous Target) coupled to a negative surface ionization models. Dependence of negative ion fractions upon the velocity component normal to the surface largely affect the calculation results of the final energy and angular distributions of the H - ions. The influence is particularly large for H - ions desorbed from the surface due to less than several eV hydrogen particle implact. The present calculation predicts that H - ion yield can be maximized by setting the incident angle of hydrogen ions and neutrals to be 65 degree. The Cs thickness on the plasma grid should also affect the yields and mean energies of surface produced H - ions by back scattering and ion induced desorption processes.