195-nm Multi-Band Amplifier Enabled by Bismuth-doped Fiber and Discrete Raman Amplification

Aleksandr Donodin; Pratim Hazarika; Mingming Tan; Vladislav Dvoyrin; Mohammed Patel; Ian Phillips; Paul Harper; Sergei Turitsyn; Wladek Forysiak

European Conference on Optical Communication (ECOC) 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper Th2A.1

195-nm Multi-Band Amplifier Enabled by Bismuth-doped Fiber and Discrete Raman Amplification

Aleksandr Donodin, Pratim Hazarika, Mingming Tan, Vladislav Dvoyrin, Mohammed Patel, Ian Phillips, Paul Harper, Sergei Turitsyn, and Wladek Forysiak

European Conference and Exhibition on Optical Communication 2022

Basel Switzerland
18–22 September 2022
ISBN: 978-1-957171-15-9

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Single Core and Multicore Fiber Amplifiers (Th2A)

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A. Donodin, P. Hazarika, M. Tan, V. Dvoyrin, M. Patel, I. Phillips, P. Harper, S. Turitsyn, and W. Forysiak, "195-nm Multi-Band Amplifier Enabled by Bismuth-doped Fiber and Discrete Raman Amplification," in European Conference on Optical Communication (ECOC) 2022, J. Leuthold, C. Harder, B. Offrein, and H. Limberger, eds., Technical Digest Series (Optica Publishing Group, 2022), paper Th2A.1.

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Abstract

We report a first-time ultra-wideband transmission through 70-km long fiber enabled by hybrid amplifier based on bismuth-doped fiber and discrete Raman amplification. The experiment features 195-nm 30 GBaud PM-16-QAM signal amplified with 15 dB gain and 6 dB NF.

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