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利用初态程函近似的连续扭曲波方法研究了He2+离子与H原子的碰撞电离过程. 计 算得到了入射离子能量从30keV/u到2000keV/u的碰撞电离总截面、随电离电子能量和角度变 化的一阶和二阶微分散射截面,及随入射离子能量变化的电离电子平均能量.计算的总电离 截面与其他理论和实验结果进行了比较,在入射离子能量大于100keV/u的能区,计算结果 与实验符合得很好;在较低的能区,各种理论结果之间有较大差别,计算结果比实验约小50 %.利用计算的二阶微分散射截面讨论了软碰撞、电子俘获到入射离子连续态、两体相遇碰 撞等碰撞电离机理.
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关键词:
- 重粒子碰撞电离 /
- 初态程函近似 /
- 总截面 /
- 一阶和二阶微分散射截面
The He2++H Impact Ionization process is investigated using a continu um distorted wave method with the eikonal initial-state(CDW-EIS) approximation.The total,single- and double-differential cross sections are obtained in the projectile energy ranges from 30keV/u to 2000keV/u.The total cross sections are compared with the existing theoretical and experimental data.When the projectile energy is larger than 100keV/u,our results are in good agreement with the experimental measurements,while about 50% less than experimental data in the lower energy range.The ionization mechanism of soft-collisions,electron captured to continuum states and binary-encounter collisions are also displayed.-
Keywords:
- heavy particle impact ionization /
- continuum distorted wave-eikonal initial appro ximation /
- total cross section /
- single- and double-differential cross section
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