基于腔光力系统的量子非互易性的研究进展

综述了基于腔光力系统的量子非互易性的研究进展，包括腔光力系统的简介以及其中的非互易性的概念和应用. 将目前腔光力系统中非互易性传输的研究分为2类：一类是同一频率域内的非互易性传输，如2个不同光学频率间的光子传输；另一类是跨频率域的非互易性传输，如光学频率光子和微波频率光子间传输. 此外，讨论了基于腔光力的非互易性器件，如隔离器、定向放大器、环行器和路由器等. 最后，对基于腔光力系统的非互易性在量子信息领域中应用的前景做了展望.

Electromagnetic nonreciprocity

The research progress of quantum nonreciprocity was reviewed based on cavity optomechanical system including the introduction of cavity optomechanical system and the concept and application of nonreciprocity in the cavity optomechanical system. The current studies of nonreciprocal transmission in the cavity optomechanical systems were divided into two categories: one is the nonreciprocal transmission in the same frequency domain, such as the transmission between two different optical frequencies, and the other is the nonreciprocal transmission between the two different frequency domains, such as the transmission between optical frequency and microwave frequency. In addition, nonreciprocal devices based on cavity optomechanics, such as isolators, directional amplifiers, circulators and routers, were discussed. Finally, the prospect of the application of nonreciprocity based on cavity optomechanical system in quantum information was prospected.