100 Gb/s NRZ OOK signal regeneration using four-wave mixing in a silicon waveguide with reverse-biased p-i-n junction-Reference-Cited by-同舟云学术

100 Gb/s NRZ OOK signal regeneration using four-wave mixing in a silicon waveguide with reverse-biased p-i-n junction

Published:2022-09-29 Issue:21 Volume:30 Page:38077
ISSN:1094-4087
Container-title:Optics Express
language:en
Short-container-title:Opt. Express

Author:

Wen Hua Shun¹²,Cui Jia Bin³^ORCID,Zhou Heng⁴,Chen Yin Fang¹²^ORCID,Jin Ya¹²,Xu Bo Rui¹²,Zhai Kun Peng¹²,Sun Jia Zheng¹²,Guo Yuan Yuan³,Wu Yan Ran³,Chen Wen³,Chen Wei³,Wang Xin¹²,Zhu Ning Hua¹²,Lu Guo-Wei⁵^ORCID,Ji Gui Jun⁶,Zhou Dennis Chi⁶,Cheng Yiu-Kwok⁶,Yang Da-quan³^ORCID,Li Ming²^ORCID

Affiliation:

1. Chinese Academy of Sciences

2. University of Chinese Academy of Sciences

3. Beijing University of Posts and Telecommunications

4. University of Electronic Science and Technology of China

5. The University of Aizu

6. Advanced Fiber Resources (Zhuhai), Ltd.

Abstract

A silicon waveguide with reverse-biased p-i-n junction is used to experimentally demonstrate all-optical regeneration of non-return-to-zero (NRZ) on-off keying (OOK) signal based on four-wave mixing. The silicon waveguide allows a high conversion efficiency of -12 dB. The 0.22 dB (1.1 dB) quality (Q) factor and 0.74 dB (6.3 dB) extinction ratio (ER) improvements on average are achieved for 100 Gb/s (50 Gb/s) NRZ OOK signal regeneration at different receiving powers via the optimal match between the input signal optical power and input-output transfer curve. To the best of our knowledge, this silicon-based all-optical regenerator exhibits superior regeneration performance, including large ER and Q factor improvements, and the highest regeneration speed of NRZ OOK signal, and it has wide applications in 5 G/6 G networks.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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