1) laser induced collisional charge exchange (LICCE)
激光感生碰撞电荷交换
1.
The perturbative theory of laser induced collisional charge exchange (LICCE) is presented, in which the laser induced collisional charge exchange is described as a four body system and the compound atomic and ionic states are used as basis states of LICCE, and the equation of motion for the probability amplitudes of the states are obtained.
将激光感生碰撞电荷交换看作一个四体系统,发展了激光感生碰撞电荷交换的微扰理论;以独立原子和离子的复合态波函数作为激光感生碰撞体系的基组函数,得到了体系态振幅的运动方程。
2) laser induced collision ionization
激光感生碰撞电离
3) LICET
激光感生碰撞能量转移
1.
The process of laser induced collision energy transfer(LICET) with two dipole-dipole interactions is analyzed by the theory of four quasimolecular level model with two intermediate states.
引入两个中间态 ,采用四能级准分子理论模型 ,分析具有两组偶极 -偶极碰撞势的激光感生碰撞能量转移过程 ,使用Magnus -light近似即矩阵整体对角化法 ,从而考虑了末态对初态的影响 ,得出了激光感生碰撞能量转移的终态几率表达式 。
2.
In this paper a four level model of laser induced collisional energy transfer (LICET) is presented in which the effects of the two intermediate states are considered.
首次考虑了两个中间态对激光感生碰撞能量转移的影响,发展了激光感生碰撞能量转移的四能级理论模型,推导出态振幅的运动方程,并给出碰撞截面的近似表达式。
4) charge-transfer laser
电荷交换激光器
5) exchange collision
交换碰撞
6) charge transfer collision
电荷转移碰撞
补充资料:电荷交换离子化
分子式:
CAS号:
性质:通过电荷交换反应使试样分子离子化的过程。如在化学电离源内,反应气R先被电子电离化为离子R+,它与试样分子M发生电荷交换而使其离子化: R++M→R+M+
CAS号:
性质:通过电荷交换反应使试样分子离子化的过程。如在化学电离源内,反应气R先被电子电离化为离子R+,它与试样分子M发生电荷交换而使其离子化: R++M→R+M+
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参考词条