\begin{document}${S_{\rm{1}}}$\end{document}), medium snow (\begin{document}${S_{\rm{2}}}$\end{document}), heavy snow (\begin{document}${S_{\rm{3}}}$\end{document}) and blizzard (\begin{document}${S_{\rm{1}}}$\end{document}). When the snow is falling in the air, it has an energy absorption effect on the light quantum signal, which is called the extinction effect. The different intensities of snow extinction have different effects on free space optical quantum signal. In this paper, first, a mathematical model for the extinction effects on optical quantum signal at different levels of snowfall is presented; then the quantitative relationship between snowfall and free space extinction attenuation, as well as the relationship between snowfall and channel limit survival function is established, channel capacities under different snowfall intensities, and quantum bit error rate are also given. Finally, the mathematical models of snowfall intensity, transmission distance and link attenuation, amplitude damping channel capacity, channel survival function and channel error rate are established. Simulation results show that when the snowfall intensity is 2.1 mm/d (\begin{document}${S_{\rm{1}}}$\end{document}) and the transmission distance is 2.2 km, the communication link attenuation is 0.0362, the channel capacity is 0.7745, the channel survival function is 0.2329, and the channel error rate is 0.0105. When the snowfall intensity is 3.8 mm/d (\begin{document}${S_{\rm{2}}}$\end{document}) and the transmission distance is 3.5 km, the communication link attenuation is 0.1326, the channel capacity is 0.4922, the channel survival function is 0.2099, and the channel error rate is 0.019. Thus, different snowfall intensity has different influence on the performance of free space quantum communication. Therefore, in practical applications, the communication parameters should be adjusted adaptively based on the snowfall intensity to improve the reliability of free space quantum communication."> Influence of snowfall on free-space quantum channel near earth surface and parameter simulation - 必威体育下载

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    Nie Min, Wang Chao-Xu, Yang Guang, Zhang Mei-Ling, Sun Ai-Jing, Pei Chang-Xing
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    • Abstract views:4608
    • PDF Downloads:68
    • Cited By:0
    Publishing process
    • Received Date:24 June 2020
    • Accepted Date:13 September 2020
    • Available Online:22 January 2021
    • Published Online:05 February 2021

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