光学
材料科学
波导管
分束器
光电子学
功率(物理)
集成光学
超晶格
折射率
相位匹配
耦合模理论
电子束光刻
非线性光学
自相位调制
物理
菲涅耳方程
半导体激光器理论
衰减系数
极化(电化学)
光纤
相位调制
衍射光栅
作者
Boai Liu,Hang Li,Feng Zhao,Mingyang Xue,Xin Qiao,Xiaobao Zhang,Yingjie Liu
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2026-03-12
卷期号:51 (7): 1955-1955
摘要
Conventional waveguide superlattices rely on theoretical physics models with manual refractive index tuning to control light propagation, yielding limited design freedom and poor scalability. Here, we propose a universal design framework using inverse-designed waveguide superlattices and demonstrate a 1 × 2 polarization-insensitive power splitter. The designed device exhibits an ultra-broad bandwidth (1450–1650 nm) with insertion losses below 0.26 dB for both TE 0 and TM 0 modes. Fabricated via a CMOS-compatible process, the splitter experimentally achieves insertion loss <0.31 dB and power imbalance <0.24 dB over 1485–1635 nm. This design strategy is further extended to a 1 × 4 splitter with excellent polarization insensitivity and broadband performance, thus confirming the universality of the proposed superlattice approach and providing a novel, to the best of our knowledge, paradigm for developing next-generation photonic devices.
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