太赫兹无线通信系统:实现有效双向链路的挑战和解决方案

IF 1.1 Q4 OPTICS
Mark Bergen, Seth Lowry, Michael Mitchell, Matthias Jenne, Christopher Collier, Jonathan Holzman
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引用次数: 0

摘要

无线通信系统是通过追求更宽的带宽和更高的频率而发展起来的。这一动力一直持续到今天,现在正接近太赫兹(THz)频谱,在那里存在着巨大的宽带通信潜力,但也面临着同样巨大的挑战。值得注意的是,传统太赫兹发射机具有低发射功率、大尺寸和高功耗的移动性挑战。提出的工作认识到这些挑战,并在无源太赫兹收发器中引入反向调制的概念,使它们建立无源太赫兹链路。将传统的(有源)太赫兹收发器和链路与所提出的(无源)太赫兹收发器和链路进行了对比,并给出了具有角立方和球面反射器的太赫兹反向调制器的实验和理论结果。最终,研究结果表明,与高频电子发射器和探测器的无源太赫兹链路以及所提出的太赫兹反向调制器能够在300 GHz的信噪比在10到20 dB之间运行。这些发现为未来使用移动太赫兹收发器的双向太赫兹无线通信系统打开了大门。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Terahertz wireless communication systems: challenges and solutions for realizations of effective bidirectional links
Wireless communication systems have evolved through a pursuit for broader bandwidths and a drive to higher frequencies. The drive has continued to present day and is now approaching the terahertz (THz) spectrum, where there exists great potential for broadband communication—and equally great challenges. Of note are the challenges of mobility for conventional THz transmitters, which have low transmitted powers, large sizes, and high power consumption. The proposed work recognizes these challenges and introduces the concept of retro-modulation in passive THz transceivers to have them establish passive THz links. Conventional (active) THz transceivers and links are contrasted to the proposed (passive) THz transceivers and links, with experimental and theoretical results given for THz retro-modulators having corner-cube and spherical retroreflectors with optical and electrical modulators. Ultimately, the findings show that passive THz links with high-frequency electronic transmitters and detectors and the proposed THz retro-modulators are capable of operation with signal-to-noise ratios between 10 to 20 dB at 300 GHz. Such findings open the door to future bidirectional THz wireless communication systems with mobile THz transceivers.
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