Title :
High-current ion beam acceleration and stability in two accelerating cusps of induction linac
Author :
Karas, Vyacheslav I. ; Belova, Nadya G.
Author_Institution :
Inst. of Phys. & Technol., Acad. of Sci., Kharkov, Ukraine
Abstract :
Results of the 2.5-dimensional numerical simulation of the hollow high-current ion beam (HHCIB) dynamics in two magnet-isolated accelerating gaps separated by the drift gap are presented. The previous study has shown that the good charge and current compensations of the ion beam by the specially injected in accelerating gap electron beam and the thermal electron injection into drift gap of the induction linac occur. With the aim of increasing the ion beam acceleration rate in the two cusps linac we have studied the optimal correlation between an accelerating electric field and an electron beam energy. It is shown also that the proposed method of the ion beam compensation ensures the beam stability relative to both electromagnetic filamentation instability and transit-time instability
Keywords :
beam handling techniques; collective accelerators; ion accelerators; ion beams; particle beam dynamics; particle beam stability; 2.5-dimensional numerical simulation; accelerating cusps; accelerating electric field; accelerating gap electron beam; beam stability; drift gap; electromagnetic filamentation instability; electron beam energy; high-current ion beam acceleration; hollow high-current ion beam; induction linac; ion beam stability; magnet-isolated accelerating gaps; thermal electron injection; transit-time instability; two cusps linac; Acceleration; Electron beams; Elementary particle vacuum; Ion accelerators; Ion beams; Linear particle accelerator; Numerical simulation; Particle beams; Physics; Stability;
Conference_Titel :
Discharges and Electrical Insulation in Vacuum, 1996. Proceedings. ISDEIV., XVIIth International Symposium on
Conference_Location :
Berkeley, CA
Print_ISBN :
0-7803-2906-6
DOI :
10.1109/DEIV.1996.545435
