光学
分束器
小型化
材料科学
消光比
极化(电化学)
带宽(计算)
光电子学
电子束光刻
制作
衍射光栅
耦合模理论
联轴节(管道)
插入损耗
分路器
栅栏
集成光学
光束转向
光子学
模耦合
光子晶体
横模
反向
耦合损耗
正交偏振光谱成像
光子集成电路
纳米光子学
偏振器
光刻
物理
平版印刷术
双折射
时域有限差分法
作者
Lu Wang,Shijie Zhu,Yanqing Wu,Hao Shi,Jun Zhao,Chengqiang Zhao,Renzhong Tai
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2025-09-11
卷期号:33 (20): 42884-42884
摘要
Inverse design promotes the miniaturization of integrated photonic devices by leveraging subwavelength structures. Based on the physics-constrained inverse design (PCID) method, we propose an ultra-compact polarization beam splitter (PBS), featuring integrated coupling gratings inversely designed to simultaneously and efficiently couple TE and TM modes. This PBS consists of a standard silicon-on-insulator (SOI) substrate and a two-dimensional digital metasurface composed of tunable air–silicon column structures. This achieves efficient polarization splitting within a compact footprint of 5 × 2.7 μm 2 . The integrated coupling gratings, inversely designed for simultaneous and efficient coupling of both TE and TM modes, significantly mitigate fabrication errors and ensure consistent measurement conditions for each polarization state. Consequently, experimental measurements closely match our simulated predictions, demonstrating low insertion losses(-1.58 dB for TE mode and -1.65 dB for TM mode) and high extinction ratios over an 80 nm bandwidth covering the entire C-band.
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