这一理论模型可推广应用于多光子过程。
The theoretical scheme can be extended to the application for multiphoton processes.
多光子过程的偏振特性可以用来标识电子态及振动结构的对称性。
The polarized characteristic of multiphoton process can be used to assign the symmetries of electronic states and vibrational structures.
特别在强微波场作用下,由于多光子过程的作用光子边带峰的数量明显增多。
As a result, many side-peaks appear in the current curve. As the intensity of microwave field becomes stronger, the multiple-photon processes become more important.
这样,我们就可以观察到一些新的现象,如多光子过程,阈上电离,隧道电离等。
In this case, many interesting phenomena of excitation and photoionization can be observed, for instance, muti-photon ionization, above threshold ionization, tunnel ionization and so on.
用多模相干态描述光场,应用预解算符和投影算符推导演化算符,使本方法可统一处理锁模激光脉冲序列输出及原子的共振多光子过程。
This method can be used to describe the resonant multi-photon processes that the pulse train from the mode locked laser interacting with atoms.
本文研究了具有A型跃迁结构的三能级原子与两个压缩态光场多光子相互作用过程中的一些量子效应。
Some quantum effects in the multiphoton interaction processes of a three-level A-shaped atom with two squeezed modes are studied in detail.
另外还从多个角度对硫化氢分子的多光子电离解离(MPID)机理进行了分析,推论出其MPID过程应属于母体离子碎裂模式。
In addition, we have analyzed the multiphoton ionization dissociation(MPID) mechanism of H 2S from several aspects, and conclude that its MPID process belongs to parent ion fragmentation mechanism.
另外还从多个角度对硫化氢分子的多光子电离解离(MPID)机理进行了分析,推论出其MPID过程应属于母体离子碎裂模式。
In addition, we have analyzed the multiphoton ionization dissociation(MPID) mechanism of H 2S from several aspects, and conclude that its MPID process belongs to parent ion fragmentation mechanism.
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