SSC注入系统能量接收范围的研究

分析了影响 SSC注入能量的因素和 SSC注入系统适应能量变化的能力 ,计算了在理论等时场下 SSC注入系统对 3种典型离子 O8+,Xe22 +和 Ar15+的能量可接收范围 ,找出了加速较轻的重离子时束流损失较大的部分原因. The SSC injection system and the factors which influence the injecting beam energy were described and the capability of the SSC injection system for accepting the mismatching injecting beam energy was calculated. For most cases, small difference exists between the values of actual injecting beam energy and the theoretical requirements. The capability of accepting three typical particals: O8+ , Xe 22+ and Ar15+ were calculated for the SSC injection stystem with small variation of the in...

Research on Energy Acceptance Range of SSC Injection System

The SSC injection system and the factors which influence theinjecting beam energy were described and the capability of the SSC injection system for accepting the mismatching injecting beam energy was calculated. For most cases, small difference exists between the values of actual injecting beam energy and the theoretical requirements. The capability of accepting three typical particals: O8+, Xe22+ and Ar15+ were calculated for the SSC injection stystem with small variation of the injection beam energy. The results show that for light particles with high energy, because of its small turn separation, the beam easily hitts the injection components, which leads to beam intensity loss. The high Dee voltage is required to increase the turn separation. For heavier particles, the SSC injection system can accept them in a large energy scale.