Research of Large Capacity Optical Transmission System based on S/C/L Band

Xu ZHANG; Ming LUO; Chao YANG; Zhi-xue HE

doi:10.13756/j.gtxyj.2022.05.001

Study On Optical Communications, Volume. 48, Issue 5, 1(2022)

Research of Large Capacity Optical Transmission System based on S/C/L Band

Xu ZHANG^1,3, Ming LUO^1,3、*, Chao YANG¹, and Zhi-xue HE^2,3

¹State Key Laboratory of Optical Communication Technologies and Networks, China Information Communication Technologies Group Corporation, Wuhan 430074, China

²National Optoelectronics Innovation Center, China Information Communication Technologies Group Corporation, Wuhan 430074, China

³Pengcheng Laboratory, Shenzhen 518000, China

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References(14)

[1] ITU-T. Optical Fibres, Cables and Systems[EB/OL]. https://www.itu.int/dms_pub/itu-t/opb/hdb/T-HDB-OUT.10-2009-1-PDF-E.pdf

[2] Ferrari A, Napoli A, Fischer J K et al. Assessment on the Achievable Throughput of Multi-band ITU-T G. 652. D Fiber Transmission Systems[J]. Journal of Lightwave Technology, PP, 1(2020).

[3] Kani J, Hattori K, Jinno M et al. Trinal-wavelength-band WDM Transmission over Dispersion-shifted Fiber[C], WJ2-1(1999).

[4] Fukuchi K, Kasamatsu T, Morie M et al. 10.92-Tb/s (273×40-Gb/s) Triple-band/Ultra-dense WDM Optical-repeatered Transmission Experiment[C], PD24-1(2001).

[5] Freund R, Molle L, Raub F et al. Triple-(S/C/L)-band WDM Transmission Using Erbium-Doped Fibre Amplifiers[C], Mo4.2.3(2005).

[6] Qian D, Huang M, Ip E et al. 101.7-Tb/s (370×294-Gb/s) PDM-128QAM-OFDM Transmission over 3×55 km SSMF Using Pilot-based Phase Noise Mitigation[C], PDPB5(2011).

[7] Sano A, Kobayashi T, Yamanaka S et al. 102.3-Tb/s (224×548-Gb/s) C-and Extended L-band All-Raman Transmission over 240 km Using PDM-64QAM Single Carrier FDM with Digital Pilot Tone[C], PDP5C.3(2012).

[8] Cai J, Sun Y, Zhang H et al. 49. 3 Tb/s Transmission over 9 100 km Using C+L EDFA and 54 Tb/s Transmission over 9 150 km Using Hybrid-Raman EDFA[J]. Journal of Lightwave Technology, 33, 2724-2734(2015).

[9] Renaudier J, Carbo Meseguer A, Ghazisaeidi A et al. First 100 nm Continuous-band WDM Transmission System with 115 Tb/s Transport over 100 km Using Novel Ultra-Wideband Semiconductor Optical Amplifiers[C], Th.PDP.A.3(2017).

[10] Hamaoka F, Minoguchi K, Sasai T et al. 150.3-Tb/s Ultra-wideband (S, C, and L bands) Single-Mode Fibre Transmission over 40 km Using >519 Gb/s/λ PDM-128QAM Signals[C], Mo4G.1(2018).

[11] Renaudier J, Arnould A, Gac D L et al. 107 Tb/s Transmission of 103-nm Bandwidth over 3×100 km SSMF Using Ultra-Wideband Hybrid Raman/SOA Repeaters[C], Tu3F.2(2019).

[12] Okamoto S, Minoguchi K, Hamaoka F et al. A Study on the Effect of Ultra-wide Band WDM on Optical Transmission Systems[J]. Journal of Lightwave Technology, 38, 1061-1070(2020).

[13] Galdino L, Edwards A, Yi W et al. Optical Fibre Capacity Optimisation via Continuous Bandwidth Amplification and Geometric Shaping[J]. IEEE Photonics Technology Letters, PP, 1(2020).

[14] Benjamin J, Ruben S, Georg L et al. S, C and Extended L-Band Transmission with Doped Fiber and Distributed Raman Amplification[C], Th4C.2(2021).

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Xu ZHANG, Ming LUO, Chao YANG, Zhi-xue HE. Research of Large Capacity Optical Transmission System based on S/C/L Band[J]. Study On Optical Communications, 2022, 48(5): 1

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Paper Information

Category: Research Articles

Received: Mar. 3, 2022

Accepted: --

Published Online: Nov. 18, 2022

The Author Email: Ming LUO (mluo@wri.com.cn)

DOI:10.13756/j.gtxyj.2022.05.001

Topics

laser devices and laser physics

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