coherent population trapping meaning in Chinese
相干布居囚禁
Examples
- Many novel physical phenomena such as coherent population trapping , lasing without inversion , electromagnetically induced transparency as well as spontaneous emission cancellation and enhancement based on quantum interference have been discovered
基于量子干涉效应,产生了许多新的物理现象和效应,如相干布居捕获、无反转激光、电磁感应透明和自发辐射相消等。 - In this paper we have predicted two kinds of new quantum coherence effects . one is the strong - field index enhancement via selective population trapping of dressed states and the other is the preservation of the coherent population trapping ( cpt ) is by quantum interference of incoherent pump processes
本文提出了两类新的原子相干效应,一是利用选择性修饰态捕获产生强场折射率增强,二是非相干泵浦诱导的量子干涉保护相干捕获。 - Recent studies have shown that the quantum coherent population trapping , electromagnetically induced transparency , index enhancement without absorption , etc . these new effects have great potential for the control of the coherence properties of a medium , the production of high frequency lasers , the information storage and high precision measurements
最近的研究表明,原子相干产生很多新的效应,如相干布居捕获、无反转激光、折射率增强、电磁诱导透明、电磁诱导吸收等。这些新效应对光学介质相干性质的控制、高频激光的产生、光信息存储和高度测量等方面具有巨大的应用前景。 - Recent studies have shown that the quantum coherence and interference have led to a lot of new effects such as coherent population trapping , electromagnetically induced transparency , index enhancement without absorption , etc . these new effects have great potential for the control of the coherence properties of a medium , the production of high frequency lasers , the information storage and high precision measurements
最近的研究表明,原子相干产生许多新效应,如相干布居捕获、无反转激光、电磁诱导透明、折射率增强等。这些新效应对光学介质相干性质的控制、高频激光的产生、光信息存储和高度测量等方面具有巨大的应用前景。 - Quantum coherence and interference have led to the observation of many new effects and new techniques in quantum optics and atomic physics . examples include coherent population trapping , electrom agnetically induced transparency , lasing without inversion , and enhancement of the index of refraction without absorption
当应用相干场来驱动光学介质时,可以使得介质的吸收和色散关系发生极大改变,产生许多新的效应,如相干布居捕获、电磁诱导透明、无反转激光、无吸收折射率增强等。