300-GHz-band Wireless Link Using Photonics-based Ultralow-noise Transmitter and Receiver

Keisuke Maekawa; Yuma Kawamoto; Tomoya Nakashita; Toki Yoshioka; Takashi Hori; Brendan M. Heffernan; James Greenberg; Rubab Amin; Tatsuya Tanigawa; Antoine Rolland; Tadao Nagatsuma

doi:10.1364/OFC.2023.Th1I.4

Optical Fiber Communication Conference (OFC) 2023
Technical Digest Series (Optica Publishing Group, 2023),
paper Th1I.4
•https://doi.org/10.1364/OFC.2023.Th1I.4

300-GHz-band Wireless Link Using Photonics-based Ultralow-noise Transmitter and Receiver

Keisuke Maekawa, Yuma Kawamoto, Tomoya Nakashita, Toki Yoshioka, Takashi Hori, Brendan M. Heffernan, James Greenberg, Rubab Amin, Tatsuya Tanigawa, Antoine Rolland, and Tadao Nagatsuma

Optical Fiber Communication Conference 2023

San Diego California United States
5–9 March 2023
ISBN: 978-1-957171-18-0

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THz Optical Communications (Th1I)

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K. Maekawa, Y. Kawamoto, T. Nakashita, T. Yoshioka, T. Hori, B. M. Heffernan, J. Greenberg, R. Amin, T. Tanigawa, A. Rolland, and T. Nagatsuma, "300-GHz-band Wireless Link Using Photonics-based Ultralow-noise Transmitter and Receiver," in Optical Fiber Communication Conference (OFC) 2023, Technical Digest Series (Optica Publishing Group, 2023), paper Th1I.4.

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Abstract

We present a THz wireless link using photonics-based signal generators using ultralow amplitude- and phase-noise Brillouin laser sources for both the transmitter and receiver, and demonstrate successful transmission of over-100-Gbit/s signals at 300 GHz with on-line signal processing.

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