Net 321.24-Gb/s IMDD Transmission Based on a &gt;100-GHz Bandwidth Directly-Modulated Laser

Nikolaos-Panteleimon Diamantopoulos; Hiroshi Yamazaki; Hiroshi Yamazaki; Suguru Yamaoka; Munehiko Nagatani; Munehiko Nagatani; Hidetaka Nishi; Hiromasa Tanobe; Ryo Nakao; Takuro Fujii; Koji Takeda; Takaaki Kakitsuka; Takaaki Kakitsuka; Hitoshi Wakita; Minoru Ida; Hideyuki Nosaka; Hideyuki Nosaka; Fumio Koyama; Yutaka Miyamoto; Shinji Matsuo

doi:10.1364/OFC.2020.Th4C.1

Optical Fiber Communication Conference Postdeadline Papers 2020
(Optica Publishing Group, 2020),
paper Th4C.1
•https://doi.org/10.1364/OFC.2020.Th4C.1

Net 321.24-Gb/s IMDD Transmission Based on a >100-GHz Bandwidth Directly-Modulated Laser

Nikolaos-Panteleimon Diamantopoulos, Hiroshi Yamazaki, Suguru Yamaoka, Munehiko Nagatani, Hidetaka Nishi, Hiromasa Tanobe, Ryo Nakao, Takuro Fujii, Koji Takeda, Takaaki Kakitsuka, Hitoshi Wakita, Minoru Ida, Hideyuki Nosaka, Fumio Koyama, Yutaka Miyamoto, and Shinji Matsuo

Optical Fiber Communication Conference 2020

San Diego, California United States
8–12 March 2020
ISBN: 978-1-943580-75-0

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Postdeadline Paper Session III (Th4C)

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N. Diamantopoulos, H. Yamazaki, S. Yamaoka, M. Nagatani, H. Nishi, H. Tanobe, R. Nakao, T. Fujii, K. Takeda, T. Kakitsuka, H. Wakita, M. Ida, H. Nosaka, F. Koyama, Y. Miyamoto, and S. Matsuo, "Net 321.24-Gb/s IMDD Transmission Based on a >100-GHz Bandwidth Directly-Modulated Laser," in Optical Fiber Communication Conference Postdeadline Papers 2020, (Optica Publishing Group, 2020), paper Th4C.1.

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Abstract

Record DML-based 325-Gb/s (BTB) and 321.24-Gb/s (2-km SSMF) transmissions are demonstrated based on a >100-GHz bandwidth membrane DML-on-SiC, by utilizing a digitally- preprocessed analog multiplexer and adaptive entropy-loaded DMT modulation, surpassing our previous record by ~34%.

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