Yang, C.-D.; Han, S.-Y. Orbital and Spin Dynamics of Electron’s States Transition in Hydrogen Atom Driven by Electric Field. Photonics2022, 9, 634.
Yang, C.-D.; Han, S.-Y. Orbital and Spin Dynamics of Electron’s States Transition in Hydrogen Atom Driven by Electric Field. Photonics 2022, 9, 634.
Yang, C.-D.; Han, S.-Y. Orbital and Spin Dynamics of Electron’s States Transition in Hydrogen Atom Driven by Electric Field. Photonics2022, 9, 634.
Yang, C.-D.; Han, S.-Y. Orbital and Spin Dynamics of Electron’s States Transition in Hydrogen Atom Driven by Electric Field. Photonics 2022, 9, 634.
Abstract
State transition in the multiple-levels system has the great potential applications in the quantum technology. In this article we employ a deterministic approach in complex space to analyze the dynamics of the 1s-2p electron transition in the hydrogen atom. The electron’s spin motion is embodied in the framework of quantum Hamilton mechanics that allows us to examine the transition dynamics more precisely. The transition is driven by an oscillating electric field in the z-direction. The electron’s transition process can be visualized by monitoring its motion in the complex space. The quantum potential and the total energy proposed in this paper provide new indices to observe the dynamic changes of electrons in the transition process.
Keywords
two-level transition; electron dynamics; spin dynamics; spin angular momentum perturbation
Subject
Physical Sciences, Applied Physics
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
