Photonic THz Beam Steering Using Fiber Chromatic Dispersion

IF 1.8 3区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Infrared, Millimeter, and Terahertz Waves Pub Date : 2024-02-29 DOI:10.1007/s10762-024-00975-0
Ming Che, Hanwei Chen, Bo Li, Haruichi Kanaya, Kazutoshi Kato
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Abstract

THz technology has the potential to revolutionize various fields, including high-speed wireless communication, medical imaging, and spectroscopy. One challenge facing THz technology, however, is the limited output power (on the order of microwatts) of photonic THz sources (e.g., uni-traveling-carrier photodiode). Researchers are therefore exploring THz beam steering techniques to maximize their power effectiveness. To this end, we propose a photonic THz beam steering method that utilizes fiber chromatic dispersion, eliminating the need for energy-consuming active electronics. This paper explains its basic operating principle, fabrication and performance analysis of the associated THz array antenna, and demonstrates the feasibility of achieving a 300 GHz beam steering within 10\(^\circ \) by means of dispersion-varied polarization-maintaining fibers. In conclusion, the present scheme can greatly enhance the power efficiency of photonic THz sources, and enable the potential advantages of seamless integration with fiber-optic networks, including reduced complexity, simplified operation, low power consumption, and cost-effectiveness.

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利用光纤色度色散进行光子太赫兹光束转向
太赫兹技术有可能给高速无线通信、医学成像和光谱学等多个领域带来革命性的变化。然而,太赫兹技术面临的一个挑战是光子太赫兹源(例如单向传输载波光电二极管)的输出功率有限(微瓦级)。因此,研究人员正在探索太赫兹光束转向技术,以最大限度地提高其功率效率。为此,我们提出了一种利用光纤色度色散的光子太赫兹光束转向方法,无需耗能的有源电子器件。本文解释了其基本工作原理、相关太赫兹阵列天线的制造和性能分析,并演示了通过色散偏振保持光纤在 10\(^\circ\) 范围内实现 300 GHz 波束转向的可行性。总之,本方案可大大提高光子太赫兹源的功率效率,并实现与光纤网络无缝集成的潜在优势,包括降低复杂性、简化操作、低功耗和成本效益。
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来源期刊
Journal of Infrared, Millimeter, and Terahertz Waves
Journal of Infrared, Millimeter, and Terahertz Waves 工程技术-工程:电子与电气
CiteScore
6.20
自引率
6.90%
发文量
51
审稿时长
3 months
期刊介绍: The Journal of Infrared, Millimeter, and Terahertz Waves offers a peer-reviewed platform for the rapid dissemination of original, high-quality research in the frequency window from 30 GHz to 30 THz. The topics covered include: sources, detectors, and other devices; systems, spectroscopy, sensing, interaction between electromagnetic waves and matter, applications, metrology, and communications. Purely numerical work, especially with commercial software packages, will be published only in very exceptional cases. The same applies to manuscripts describing only algorithms (e.g. pattern recognition algorithms). Manuscripts submitted to the Journal should discuss a significant advancement to the field of infrared, millimeter, and terahertz waves.
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