Digital communication – optical vs. THz links

IF 1.3 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
J. Marczewski
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引用次数: 0

Abstract

Article history: Received 01 Jul. 2020 Received in revised form 06 Aug. 2020 Accepted 07 Aug. 2020 The paper presents a comprehensive look at the perspectives on the use of THz in digital communication systems. The publication aims to focus on arguments that justify a significant increase in the frequency of radio links and their integration with fibre-based networks. Comparison of THz links with their microwave and optical counterparts is discussed from basic physical limitations to technological constraints. Main attention is paid to the available channel capacity resulting from its bandwidth and signal-to-noise ratio. The short final discussion is about technology platforms that seem to be crucial to the availability of suitable THz sources. According to the author, the biggest advantage of using bands in the range of several hundred GHz for a digital data transmission is their use for mobile communication over short distances, as well as for broadband indoor links. However, these applications require a development of compact electronic THz sources with low noise and power reaching single watts. This is beyond the range of the most popular silicon-based technology platform, although a significant progress can be expected with the development of technologies based on wide bandgap semiconductors. Fibre optic connections remain the unquestioned leader in communication over long distances and permanent links.
数字通信。光与太赫兹链路
本文全面介绍了太赫兹在数字通信系统中使用的观点。该出版物的目的是把重点放在证明无线电链路频率显著增加及其与基于光纤的网络集成的合理性的论点上。从基本的物理限制到技术限制,讨论了太赫兹链路与微波和光学链路的比较。主要关注由信道带宽和信噪比决定的可用信道容量。最后简短的讨论是关于技术平台的,这些技术平台似乎对获得合适的太赫兹源至关重要。根据作者的说法,使用几百GHz频段进行数字数据传输的最大优势是它们可用于短距离移动通信以及宽带室内链路。然而,这些应用需要开发具有低噪声和功率达到单瓦的紧凑型电子太赫兹源。这超出了最流行的硅基技术平台的范围,尽管基于宽带隙半导体的技术的发展可以预期取得重大进展。光纤连接在长距离和永久连接的通信中仍然是毫无疑问的领导者。
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来源期刊
Opto-Electronics Review
Opto-Electronics Review 工程技术-工程:电子与电气
CiteScore
1.90
自引率
12.50%
发文量
0
审稿时长
>12 weeks
期刊介绍: Opto-Electronics Review is peer-reviewed and quarterly published by the Polish Academy of Sciences (PAN) and the Association of Polish Electrical Engineers (SEP) in electronic version. It covers the whole field of theory, experimental techniques, and instrumentation and brings together, within one journal, contributions from a wide range of disciplines. The scope of the published papers includes any aspect of scientific, technological, technical and industrial works concerning generation, transmission, transformation, detection and application of light and other forms of radiative energy whose quantum unit is photon. Papers covering novel topics extending the frontiers in optoelectronics or photonics are very encouraged. It has been established for the publication of high quality original papers from the following fields: Optical Design and Applications, Image Processing Metamaterials, Optoelectronic Materials, Micro-Opto-Electro-Mechanical Systems, Infrared Physics and Technology, Modelling of Optoelectronic Devices, Semiconductor Lasers Technology and Fabrication of Optoelectronic Devices, Photonic Crystals, Laser Physics, Technology and Applications, Optical Sensors and Applications, Photovoltaics, Biomedical Optics and Photonics
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