Chip-based tunable all-optical logic gates via four-wave mixing in graphene-on-silicon microresonators

Wei Wu; Wei Wu; Qibing Sun; Qibing Sun; Guoxi Wang; Guoxi Wang; Lingxuan Zhang; Lingxuan Zhang; Wei Zhao; Wei Zhao

doi:10.1364/ACPC.2020.M4A.37

Asia Communications and Photonics Conference/International Conference on Information Photonics and Optical Communications 2020 (ACP/IPOC)
OSA Technical Digest (Optica Publishing Group, 2020),
paper M4A.37
•https://doi.org/10.1364/ACPC.2020.M4A.37

Chip-based tunable all-optical logic gates via four-wave mixing in graphene-on-silicon microresonators

Wei Wu, Qibing Sun, Guoxi Wang, Lingxuan Zhang, and Wei Zhao

Asia Communications and Photonics Conference 2020

Beijing China
24–27 October 2020
ISBN: 978-1-943580-82-8

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W. Wu, Q. Sun, G. Wang, L. Zhang, and W. Zhao, "Chip-based tunable all-optical logic gates via four-wave mixing in graphene-on-silicon microresonators," in Asia Communications and Photonics Conference/International Conference on Information Photonics and Optical Communications 2020 (ACP/IPOC), K. Xu, D. Simeonidou, C. Chang-Hasnain, N. Wada, X. Ren, Z. Zhukov, P. Perry Shum, Y. Ji, J. Zhang, X. Zhou, C. Lu, and L. Wosinska, eds., OSA Technical Digest (Optica Publishing Group, 2020), paper M4A.37.

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Abstract

We present a practical tunable all-optical logic gate based on the FWM effect in the graphene-on-silicon (GoS) microresonator. The GoS microresonator could produce broadband flat dispersion with multiple zero-dispersion wavelengths (ZDWs) by electrically tuning the graphene.

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