Affiliation:
1. Key Laboratory of Photonic Technology for Integrated Sensing and Communication, Ministry of Education of China, Guangdong University of Technology, Guangzhou 510006, China
Abstract
In order to deal with the chromatic dispersion-induced power fading issue for short-reach direct-detection optical fiber communication applications, such as the ever-increasing data-center interconnections (DCIs), optical filed recovery is intensively being under investigation. To date, various direct detection schemes capable of optical field recovery have been proposed, including the Kramers–Kronig (KK) receiver, asymmetric self-coherence detection (ASCD) receiver, carrier-assisted differential detection receiver (CADD), Stokes vector receiver (SVR), and carrier-free phase-retrieval (CF-PR) receiver. Among those, the CF-PR receiver attracts lots of research attention because it can circumvent the requirement of a strong continuous-wave (CW) optical carrier for the beating with the signal. Generally, the CF-PR receiver consists of only two single-ended photodiodes (PDs) and one dispersive element, for the field recovery of the quadrature amplitude modulation (QAM) signals. Based on the theoretical and experimental studies reported so far, this paper reviews the latest progress of CF-PR receivers designed for high-speed optical short-reach transmission links.
Funder
National Key Research and Development Program of China
National Natural Science Foundation of China
Guangdong Introducing Innovative and Entrepreneurial Teams of “The Pearl River Talent Recruitment Program”
Reference78 articles.
1. Fundamentals of Coherent Optical Fiber Communications;Kikuchi;J. Light. Technol.,2016
2. Cvijetic, M. (2016). Coherent and Nonlinear Lightwave Communications, Artech House.
3. Research challenges in optical communications towards 2020 and beyond;Batagelj;Inf. MIDEM,2014
4. Fiber Impairment Compensation Using Coherent Detection and Digital Signal Processing;Ip;J. Light. Technol.,2009
5. Fifty Years of Fixed Optical Networks Evolution: A Survey of Architectural and Technological Developments in a Layered Approach;Uzunidis;Telecom,2022