极化(电化学)
光隔离器
透射率
物理
互惠(文化人类学)
洛伦兹变换
传输(电信)
光学
光电子学
计算机科学
电信
光纤
心理学
社会心理学
化学
物理化学
经典力学
作者
Wenjia Li,Qingdong Yang,Oubo You,Cuicui Lu,Fuxin Guan,Jianlong Liu,Jinhui Shi,Shuang Zhang
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2024-07-31
卷期号:10 (31): eadm7458-eadm7458
被引量:26
标识
DOI:10.1126/sciadv.adm7458
摘要
Nonreciprocal transmission, resulting from the breaking of Lorentz reciprocity, plays a pivotal role in nonreciprocal communication systems by enabling asymmetric forward and backward propagations. Metasurfaces endowed with nonreciprocity represent a compact and facile platform for manipulating electromagnetic waves in an unprecedented manner. However, most passive metasurfaces that achieve nonreciprocal transmissions are polarization dependent. While incorporation of active elements or nonlinear materials can achieve polarization-independent nonreciprocal metasurfaces, the complicated configurations limit their practical applications. To address this issue, we propose and demonstrate a passive and linear metasurface that combines magneto-optical and chiral effects, enabling polarization-independent isolation. The designed metasurface achieves a transmittance of up to 80%, with a high contrast between forward and backward propagations. Our work introduces a novel mechanism for nonreciprocal transmission and lays the foundation for the development of compact, polarization-insensitive nonreciprocal devices.
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