光子学
多路复用
物理
光子集成电路
光电子学
拓扑(电路)
太赫兹辐射
光学
非线性光学
非线性系统
波导管
耦合模理论
频分复用
光子晶体
信号处理
波分复用
光通信
时分复用
波长
可扩展性
边值问题
电磁场
计算机科学
电子工程
GSM演进的增强数据速率
拓扑绝缘体
四波混频
功率分配器和定向耦合器
光放大器
串扰
信号(编程语言)
电子线路
量子计算机
作者
Chunlin Ma,Junhao Yang,Chia‐Mei Peng,Gang Li,Shifeng Xue,Xinyuan Qi
摘要
We propose a monolithic topological photonic circuit that integrates second-harmonic generation (SHG) and wavelength demultiplexing in a single platform. Leveraging the finite element method (FEM) for electromagnetic simulations, a sandwich waveguide heterostructure with air-gap-tuned edge states simultaneously generates SHG at 280.6 THz and routes fundamental (FW) and second-harmonic waves (SHW) through topologically distinct paths: FW propagates via a nontrivial edge state (near-zero backscattering), while SHW transmits through a trivial boundary mode (optimized dispersion). Simulated results demonstrate greater than 99.88% separation efficiency—matching the state-of-the-art in topological isolation systems. The dual-functionality design eliminates hybrid-component losses, yielding a normalized SHG efficiency of η =139.4 % W −1 cm −2 . Field profiles confirm that the spatial isolation of FW/SHW outputs a minimum crosstalk suppression of −29.2 dB . This work establishes a scalable paradigm for topology-enabled nonlinear light management in quantum frequency conversion and photonic signal processing.
科研通智能强力驱动
Strongly Powered by AbleSci AI