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Nonreciprocal Optical Routing in Multi-port Magneto-Optical Devices on Silicon

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posted on 2025-01-10, 17:00 authored by Xiaoyi Song, Wei Yan, Di Wu, Yucong Yang, Zixuan Wei, Zijian Zhang, Tianchi Zhang, Junxian Wang, Jun Qin, Lei Bi
Nonreciprocal optical devices are key components in photonic integrated circuits for light reflection blocking and routing. Most reported silicon integrated nonreciprocal optical devices to date were unit devices. To allow complex signal routing between multi-ports in photonic networks, multi-port magneto-optical (MO) nonreciprocal photonic devices are desired. In this study, we report experimental demonstration of a silicon integrated 5*5 multiport nonreciprocal photonic device based on magneto-optical waveguides. By introducing different nonreciprocal phase shift effect to planar photonic waveguides, the device focuses light to different ports for both forward and backward propagation. The device shows designable nonreciprocal transmission between 5*5 ports, achieving 16 dB isolation ratio and -18 dB crosstalk.

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