分束器
材料科学
相(物质)
梁(结构)
光电子学
光学
纳米技术
物理
激光器
量子力学
作者
Chengfeng Li,Jingyao Zhang,Tao He,Yuhang Dai,Jingyuan Zhu,Siyu Dong,Zeyong Wei,Yuzhi Shi,Hongfei Jiao,Zhanshan Wang,Xinbin Cheng
标识
DOI:10.1002/lpor.202501381
摘要
Abstract Metasurface‐based beam splitters have attracted significant attention in communities of spectroscopy, optical communications, and so on for their strong capability to manipulate electromagnetic waves. However, achieving precise control over split ratios under high efficiency conditions remains a significant challenge. In this work, a phase engineering strategy based on multilayer metasurfaces is presented to tailor the split ratios of beam splitters with high efficiency. By engineering the reflection phase and its dispersion of the multilayer films, rather than the upper metasurfaces, the proposed approach exploits the longitudinal degrees of freedom to substantially enhance the design flexibility and performance of beam splitters. Using this strategy, high‐efficiency beam splitters is demonstrated with tailored split ratios and equal‐power beam splitters with customized operational bandwidths, respectively. As a proof of concept, a 2D four‐channel circularly‐polarized beam splitter is experimentally realized with a high efficiency exceeding 21% per channel. These results provide a new pathway for promoting the performance and flexibility of metasurface‐based beam splitters.
科研通智能强力驱动
Strongly Powered by AbleSci AI