Analysis of high-frequency atmospheric windows for terahertz communication between the ground and the satellite

Q4 Engineering
Cao Xiangchun, Hao Jian-hong, Zhao Qiang, Zhang Fang, Fan Jieqing, Dong Zhi-wei
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引用次数: 0

Abstract

The large path loss limits the transmission distance of terahertz wireless communication in the atmosphere. To realize long-range transmission of terahertz waves between the ground and the satellite, the first and key step is to find low attenuation atmospheric transparent windows. In this paper, based on the characteristics of atmospheric distribution in China, atmospheric model (am) is used to compute and compare atmospheric absorption attenuation of terahertz waves in two representative cities, and obtain the most ideal ground-based site suitable for terahertz communication between the ground and the satellite in China. Subsequently, by means of real atmospheric data and layered transmission theory, the total path loss of terahertz communication between the ground and the satellite is calculated. Combined with the signal transmit power, antenna gain, Signal-to-Noise Ratio (SNR), noise power and the corresponding path loss threshold, the total usable bandwidth and atmospheric windows in the 10−15 THz frequency band are given. Moreover, by taking the High Altitude Platform as the terahertz communication relay link between the ground and the satellite, the usable atmospheric windows in the 1−15 THz frequency band with antenna gain of 0−100 dBi are given, which provide theoretical and numerical reference for the establishment of ground-satellite communication links and the selection of ground-based sites and communication frequency bands in China.
地面与卫星太赫兹通信的高频大气窗口分析
较大的路径损耗限制了太赫兹无线通信在大气中的传输距离。要实现太赫兹波在地面与卫星之间的远距离传输,首先也是关键的一步是寻找低衰减的大气透明窗口。本文根据中国大气分布特点,采用大气模式(am)计算比较了两个具有代表性城市大气对太赫兹波的吸收衰减,得到了适合中国地星太赫兹通信的最理想地基站点。随后,利用实际大气数据和分层传输理论,计算了地面与卫星之间太赫兹通信的总路径损耗。结合信号发射功率、天线增益、信噪比、噪声功率和相应的路径损耗阈值,给出了10 ~ 15 THz频段的总可用带宽和大气窗口。以高空平台作为地面与卫星之间的太赫兹通信中继链路,给出了天线增益为0 ~ 100 dBi的1 ~ 15太赫兹频段的可用大气窗口,为中国地星通信链路的建立以及地面站点和通信频段的选择提供了理论和数值参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
强激光与粒子束
强激光与粒子束 Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
11289
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