Enviar artigo por via de e-mail Angle of Arrival Fluctuations for Optical Waves Propagating Through Joint Moderate to Strong Atmospheric Turbulence
- Autores: Du W.1, Yang J.2, Gong Q.3, Liu J.1, Zhang G.1, Yang Z.4, Ma J.4, Yao Y.5, Lu J.1, Liu D.1, Cui Q.1
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Afiliações:
- College of Telecommunication and Electronic Engineering, Qiqihar University
- College of Physics and Electrical Information, Langfang Normal University
- Harbin First Machinery Group Co. Ltd.
- National Key Laboratory of Tunable Laser Technology Harbin Institute of Technology
- School of Software Harbin Institute of Technology
- Edição: Volume 37, Nº 1 (2016)
- Páginas: 82-90
- Seção: Article
- URL: https://journals.rcsi.science/1071-2836/article/view/247735
- DOI: https://doi.org/10.1007/s10946-016-9547-y
- ID: 247735
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Resumo
Satellite laser communication has gained wide attention both at home and abroad. The pointing, acquisition, and tracking (PAT) technology is the kernel of satellite laser communication systems, and the atmospheric layer is a part of the communication channel for satellite-to-ground links. Thus, angle of arrival (AOA) fluctuations caused by atmospheric turbulence inevitably influence long-distance satellite laser communication. Therefore, it is very important to analyze the impact of AOA fluctuations in satellite laser communication systems. According to the actual situation of satellite-to-ground links, a joint atmospheric turbulence power spectrum model is defined that includes Kolmogorov turbulence from the ground to 6 km in portions of the troposphere and non-Kolmogorov turbulence above 6 km in the stratosphere. Based on the extended Rytov theory, we derive the large-scale and small-scale variances of AOA fluctuations propagating in the uplink and downlink channels for a satellite laser communication system and analyze the influence of large zenith angle variations on the AOA fluctuations. It has long been a focus of concern that the expressions for the AOA variance obtained must be concise and of closed form.
Sobre autores
Wenhe Du
College of Telecommunication and Electronic Engineering, Qiqihar University
Autor responsável pela correspondência
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
Jingxuan Yang
College of Physics and Electrical Information, Langfang Normal University
Email: whduhit@gmail.com
República Popular da China, Langfang, 065000
Qiuye Gong
Harbin First Machinery Group Co. Ltd.
Email: whduhit@gmail.com
República Popular da China, Harbin, 150056
Jian Liu
College of Telecommunication and Electronic Engineering, Qiqihar University
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
Gong Zhang
College of Telecommunication and Electronic Engineering, Qiqihar University
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
Zhonghua Yang
National Key Laboratory of Tunable Laser Technology Harbin Institute of Technology
Email: whduhit@gmail.com
República Popular da China, Harbin, 150001
Jing Ma
National Key Laboratory of Tunable Laser Technology Harbin Institute of Technology
Email: whduhit@gmail.com
República Popular da China, Harbin, 150001
Yupeng Yao
School of Software Harbin Institute of Technology
Email: whduhit@gmail.com
República Popular da China, Harbin, 150001
Junguo Lu
College of Telecommunication and Electronic Engineering, Qiqihar University
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
Daosen Liu
College of Telecommunication and Electronic Engineering, Qiqihar University
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
Quanling Cui
College of Telecommunication and Electronic Engineering, Qiqihar University
Email: whduhit@gmail.com
República Popular da China, Qiqihar, 161006
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