论文标题
光学和微波非交流的进步
Advances in Optical and Microwave Nonreciprocity
论文作者
论文摘要
现代光子和量子技术需要互惠破坏,例如隔离器,全双工系统,量子计算机中的噪声隔离,激励搜索基于磁铁的设备以外的实用方法。这项工作概述了光学非肾脏的新兴进步,包括新材料(Weyl半法,拓扑绝缘器,跨苏膜),主动结构,时间调节,PT对称性破坏,非线性,非线性,量子非线性,非线性增益和损失,单场增益和损失,chirleal量子状态和谷数量化。
Modern photonic and quantum technologies demand reciprocity breaking, e.g., isolators, full-duplex systems, noise isolation in quantum computers, motivating searching for practical approaches beyond magnet-based devices. This work overviews the up-and-coming advances in optical nonreciprocity, including new materials (Weyl semimetals, topological insulators, metasurfaces), active structures, time-modulation, PT-symmetry breaking, nonlinearity, quantum nonlinearity, unidirectional gain and loss, chiral quantum states, and valley polarization.
