All-optical switching with graphene-loaded plasmonic waveguides in the femtojoule and femtosecond range

Masaaki Ono; Masaaki Ono; Masanori Hata; Masanori Hata; Masato Tsunekawa; Masato Tsunekawa; Kengo Nozaki; Kengo Nozaki; Hisashi Sumikura; Hisashi Sumikura; Hisashi Chiba; Hisashi Chiba; Masaya Notomi; Masaya Notomi; Masaya Notomi

doi:10.1364/OFC.2021.W1C.2

Optical Fiber Communication Conference (OFC) 2021
OSA Technical Digest (Optica Publishing Group, 2021),
paper W1C.2
•https://doi.org/10.1364/OFC.2021.W1C.2

All-optical switching with graphene-loaded plasmonic waveguides in the femtojoule and femtosecond range

Masaaki Ono, Masanori Hata, Masato Tsunekawa, Kengo Nozaki, Hisashi Sumikura, Hisashi Chiba, and Masaya Notomi

Optical Fiber Communication Conference 2021

Washington, DC United States
6–11 June 2021
ISBN: 978-1-943580-86-6

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Photonic Switching and Communications (W1C)

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M. Ono, M. Hata, M. Tsunekawa, K. Nozaki, H. Sumikura, H. Chiba, and M. Notomi, "All-optical switching with graphene-loaded plasmonic waveguides in the femtojoule and femtosecond range," in Optical Fiber Communication Conference (OFC) 2021, P. Dong, J. Kani, C. Xie, R. Casellas, C. Cole, and M. Li, eds., OSA Technical Digest (Optica Publishing Group, 2021), paper W1C.2.

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Abstract

Graphene’s ultrafast carrier response enables ultrafast device operation, but its thinness makes graphene devices large and energy consuming. Introducing plasmonic nanostructures overcomes this problem and makes it possible to develop ultrafast, energy-efficient all- optical switches.

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