用于旋转目标探测的集成太赫兹涡旋光束发射器

IF 20.6 1区 物理与天体物理 Q1 OPTICS
Jingya Xie, Jun Qian, Tengjiao Wang, Linjie Zhou, Xiaofei Zang, Lin Chen, Yiming Zhu, Songlin Zhuang
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引用次数: 0

摘要

我们提出了一种太赫兹(THz)涡旋发射器,它利用高电阻硅谐振器产生具有各种拓扑电荷的涡旋光束。为了解决高折射率对比度导致的双圆偏振叠加问题,我们通过在波导顶部部分刻蚀的二阶光栅来调节横向自旋状态。反射波可以直接被线极化天线接收,简化了过程。利用调谐特性,一种涉及正负拓扑电荷的联合检测方法在鲁棒微多普勒干扰信号中识别和检测旋转多普勒效应。该发射器可用于轴上旋转物体的旋转速度测量,实现令人印象深刻的最大速度错误率为~ 2%。鉴于其低成本和大规模生产的潜力,该方法为太赫兹涡旋光束在雷达目标探测和对抗系统中的应用的未来发展提供了希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated terahertz vortex beam emitter for rotating target detection
We propose a terahertz (THz) vortex emitter that utilizes a high-resistance silicon resonator to generate vortex beams with various topological charges. Addressing the challenge of double circular polarization superposition resulting from the high refractive index contrast, we regulate the transverse spin state through a newly designed second-order grating partially etched on the waveguide’s top side. The reflected wave can be received directly by a linearly polarized antenna, simplifying the process. Benefiting from the tuning feature, a joint detection method involving positive and negative topological charges identifies and detects rotational Doppler effects amid robust micro-Doppler interference signals. This emitter can be used for the rotational velocity measurement of an on-axis spinning object, achieving an impressive maximum speed error rate of ∼2 % . This approach holds promise for the future development of THz vortex beam applications in radar target detection and countermeasure systems, given its low cost and potential for mass production.
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来源期刊
CiteScore
22.70
自引率
1.20%
发文量
49
审稿时长
18 weeks
期刊介绍: Advanced Photonics is a highly selective, open-access, international journal that publishes innovative research in all areas of optics and photonics, including fundamental and applied research. The journal publishes top-quality original papers, letters, and review articles, reflecting significant advances and breakthroughs in theoretical and experimental research and novel applications with considerable potential. The journal seeks high-quality, high-impact articles across the entire spectrum of optics, photonics, and related fields with specific emphasis on the following acceptance criteria: -New concepts in terms of fundamental research with great impact and significance -State-of-the-art technologies in terms of novel methods for important applications -Reviews of recent major advances and discoveries and state-of-the-art benchmarking. The journal also publishes news and commentaries highlighting scientific and technological discoveries, breakthroughs, and achievements in optics, photonics, and related fields.
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