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A programmable topological photonic chip

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posted on 2024-03-15, 16:00 authored by Tianxiang Dai, Anqi Ma, Jun Mao, Yutian Ao, Xinyu Jia, Yun Zheng, Chonghao Zhai, Yan Yang, Zhihua Li, Bo Tang, Jun Luo, Baile Zhang, Xiaoyong Hu, Qihuang Gong, Jianwei Wang
Controlling topological phases of light has allowed experimental observations of abundant topological phenomena and development of robust photonic devices. The prospect of more sophisticated controls with topological photonic devices for practical implementations requires high-level programmability. Here, we demonstrate a fully programmable topological photonic chip with large-scale integration of silicon photonic nanocircuits and microresonators. Photonic artificial atoms and their interactions in our compound system can be individually addressed and controlled, therefore allowing arbitrary altering of structural parameters and geometrical configurations for the observations of dynamic topological phase transitions and diverse photonic topological insulators. By individually programming artificial atoms on the generic chip, it has allowed comprehensive statistic characterisations of topological robustness against relatively weak disorders, as well as counterintuitive topological Anderson phase transitions induced by strong disorders. Our generic topological photonic chip that can be rapidly reprogrammed to implement multifunctionalities, prototypes a flexible and versatile platform for possible applications across fundamental science and topological technologies.

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