双稳态
光学双稳态
光子学
物理
光子晶体
超材料
非线性系统
光开关
电介质
光电子学
非线性光学
多稳态
光学
拓扑(电路)
光子超材料
人工神经网络
克尔效应
硅光子学
极化(电化学)
材料科学
光通信
乙状窦函数
散射
稳健性(进化)
电场
光散射
纳米光子学
波长
作者
Hui Li,Boyang Duan,Tianyu Zhu,Sichao Shan,Liqian Lin,Changjun Li,Zhitong Li
出处
期刊:Nanomaterials
[Multidisciplinary Digital Publishing Institute]
日期:2026-05-02
卷期号:16 (9): 561-561
摘要
Optical bistability is a nonlinear phenomenon enabling stable switching between two optical states and has important applications in optical communication and photonic neural networks (PNNs). However, conventional bistable devices often suffer from fabrication imperfections and scattering losses, which limit their robustness and dispersionless performance. In this study, we numerically investigate optical bistability from a one-dimensional photonic topological hypercrystal (PhH) composed of alternating hyperbolic metamaterials (HMMs) and dielectric layers. By designing a center-inversed symmetric layered PhH structure and introducing Kerr nonlinearity into the localized dielectric region of maximum electric field intensity at the inversion center, we achieve a robust, angle-insensitive optical bistability for TM polarization through phase variation compensation mechanism. When applied as a nonlinear activation function in PNNs, the bistable PhH exhibits performance comparable to conventional digital activation functions such as ReLU and Sigmoid in image-recognition tasks. Our work paves the way for integrating topological bistable devices into next-generation PNNs.
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