慢速高电荷态离子与氦原子碰撞中双俘获稳定比的势能参量(英文)
A Potential Parameter on the Stabilization Ratio of Double-electron Transfer in Slow Highly Charged Ions with Helium Collisions
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摘要: 在慢速高电荷态离子与氦原子碰撞的双电子转移过程中,借用虚态图像来描绘转移电子间的强关联特性;根据分子库仑过垒模型纳入反应Q值,定义势能参量! 来区分碰撞系统并度量双电子转移过程。对照之前的实验数据,清晰地显示当ω> 和ω>2 时,纯双电子俘获或自电离双俘获分别占优。澄清了碰撞系统的本质区别在于散射离子上两个转移电子的平均激发能和平均束缚能的相对比率。We borrow the concept of virtual state to characterize the strong interacting feature of the two transferred electrons in slow highly charged ions with helium collisions. Consequently, a potential parameter ! is de ned to distinguish the collision systems and to scale the double-electron transfer processes. The Q-value is taken into account according to the classical over-the-barrier model. Comparing with our previous experimental data, it is clearly shown that the true double capture or the autoionizing double capture dominates when ω>1 or ω> 2, respectively. We clarify that the distinction of the collision systems is essentially the ratio between the average excitation energy and the average binding energy of the two transferred electrons at the scattered ion.Abstract: We borrow the concept of virtual state to characterize the strong interacting feature of the two transferred electrons in slow highly charged ions with helium collisions. Consequently, a potential parameter ! is de ned to distinguish the collision systems and to scale the double-electron transfer processes. The Q-value is taken into account according to the classical over-the-barrier model. Comparing with our previous experimental data, it is clearly shown that the true double capture or the autoionizing double capture dominates when ω>1 or ω> 2, respectively. We clarify that the distinction of the collision systems is essentially the ratio between the average excitation energy and the average binding energy of the two transferred electrons at the scattered ion.
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