The study of the spin-orbit effects, which link the spin and charge dynamics and open the possibility of manipulating electron spin and spin current by means of electric fields without external magnetic in mesoscopic system.
对自旋轨道耦合效应的研究有助于我们更好地了解电子自旋和电荷动力学之间的关系,为实现在没有外磁场的介观系统中通过电场来控制电子的自旋和自旋流提供了可能。
参考来源 - 电子自旋驰豫和隧穿特性研究·2,447,543篇论文数据,部分数据来源于NoteExpress
在所研究的实验条件下,这两步反应都为电荷传递动力学行为所控制。
The two reactions were controlled by the kinetics behavior of charge transferring in the experimental conditions.
讨论了介质表面的壁电荷分布对发光斑图的形成及其时空动力学行为的影响。
The influence of the wall charge distribution on the forming process and the spatio_temporal dynamics of the emission patterns is discussed.
最后,综述了短肽离子光解离动力学和短肽离子中发生的电荷快速转移动力学过程的研究进展。
In the final part of the article, the studies on the fast charge transfer dynamics in the peptide ions have been reviewed.
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