100.3-Tb/s(375×267.27-Gb/s) C- and L-band Transmission over 80-km SSMF Using DFT-S OFDM 128-QAM

Luo, Ming; Li, Chao; Yang, Qi; He, Zhixue; Xu, Junbo; Zhang, Zhang; Yu, Shaohua

doi:10.1364/acpc.2014.af4b.1

Cited by 7 publications

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References 4 publications

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“…The leakage conduction mechanism of the films can be established from slope value of the log J-log E curves through a linear fit, corresponding to slope values of 1 and 2 for ohmic conduction (OC) and space charge limited current conduction (SCLC), respectively. [138][139][140] Studies have shown that the leakage conduction mechanism of the undoped BFO films is SCLC at low electric fields, and is influenced by interfacial confinement at high electric fields. The BFZMO films are distinguished by the OC mechanism at low electric fields.…”

Section: Electrical Propertiesmentioning

confidence: 99%

Narrow Bandgap Inorganic Ferroelectric Thin Film Materials

Yang

2022

Adv Materials Inter

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(2 of 18)www.advmatinterfaces.de Figure 1. a) Spectra of solar radiance and UV-Vis-near IR absorption of BiFeO 3 and KBiFe 2 O 5 thin film materials and b) maximum theoretical efficiency versus bandgap. Reproduced with permission. [31] Copyright 2013, Springer Nature. c) The ultraviolet-visible-near-infrared (NIR) absorption spectrum hexagonal of and d) tauc plots of the ferrites (h-RFOs) with a narrow bandgap for the direct bandgap transition. Reproduced with permission. [32]

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Section: Electrical Propertiesmentioning

confidence: 99%

Narrow Bandgap Inorganic Ferroelectric Thin Film Materials

Yang

2022

Adv Materials Inter

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“…The spatial dimensions of multimode and multicore have also been developed successively, which promote the continuous increasement of the system capacity. The fiber communication has evolved to the single-channel rate of 1 Tb/s, and the single-fiber capacity has developed to 100 Tb/s, which is close to the Shannon limit of common commercial single-mode fiber transmission systems. − …”

Section: Research Progress On Long-distance Transmissionmentioning

confidence: 99%

“…Author: Since the mid-1970s, optical fiber communication technology has advanced by leaps and bounds. The development speed of optical fiber communication is astonishing. − ,− No communication method can be compared with it. Optical fiber communication has become the best technology choice for all communication systems. , Compared with satellite communication systems, optical fiber communication has revolutionized global communication in terms of transmission capacity, reliability, and quality .…”

Section: Introductionmentioning

confidence: 99%

High-Speed Optical Fiber Communication in China

2022

ACS Photonics

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In the past decade, China has made great investments in studying photonics and photocommunication with larger communication capacity, better performance, and lower cost. After years of heavy investment, great progress has been made in academic research, manufacturing capabilities, and optical network scale. The number of papers written and published by researchers in China in the world’s top optical fiber communication conferences has increased year by year, accounting for about 10% of the total number of papers. These high-level articles show that scientists in China have made great strides in photonics research in devices, systems, and networks. On the other hand, photonics industrialization in China is getting more competitive with its large market scale and strong production capacity.

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“…但非线性效应越发明显, 引起系统信噪比急剧恶化, 非线性香农极限限制了传输容量的进一步增长. 基于众多的研究结果, 2010 年 N ature 杂志发表文章指出 100 Tb/s 是商用标准单模光纤传输系统容量的一个关键台阶 [5] . 目前最高水平的研究成果也验证了这点 ( 1974 1978 1982 1986 1990 1994 1998 2002 2006 Figure 4 (Color online) Five physical dimensions to improve the capacity of optical fiber communication system 另一方面, 人们还希望提升光网络组网的自动化及智能化水平, 最终实现网络 "即插即用" 功能, 而无需任何人工干预和规划, 最大限度地降低网络运营成本.…”

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Latest survey on optical fiber communication

Yu¹,

He²

2020

Sci. Sin.-Inf.

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Articles you may be interested in Chaotic laser synchronization and its application in optical fiber secure communication Science in China Series F-Information Sciences 47, 332 (2004); Asynchronous cooperative communication systems: A survey on signal designs SCIENCE CHINA Information Sciences 54, 1547 (2011); A survey of free space optical networks 数字通信和网络 3, 67 (2017); Channel measurements and models for high-speed trainwireless communication systems in tunnel scenarios: a survey SCIENCE CHINA Information Sciences 60, 101301 (2017); Optical local area network emulations over Ethernet passive optical networks: A survey

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100.3-Tb/s(375×267.27-Gb/s) C- and L-band Transmission over 80-km SSMF Using DFT-S OFDM 128-QAM

Cited by 7 publications

References 4 publications

Narrow Bandgap Inorganic Ferroelectric Thin Film Materials

Narrow Bandgap Inorganic Ferroelectric Thin Film Materials

High-Speed Optical Fiber Communication in China

Latest survey on optical fiber communication

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