基于双层液晶-介质光栅的超宽可调谐太赫兹移相器

IF 1.8 4区 物理与天体物理 Q3 OPTICS
Songlin Jiang, Fei Fan, Yun-Yun Ji, Huijun Zhao, Jie -Rong Cheng, Xianghui Wang, Shengjiang Chang
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引用次数: 0

摘要

超宽可调谐太赫兹(THz)移相器一直是太赫兹应用的高需求器件,特别是在宽带传输和相位调制方面。本文设计并制作了一种双层液晶与双面刻蚀光栅超表面相结合的复合器件。通过在超表面人为各向异性的基础上引入LC的自然各向异性,器件的各向异性得到了显著增强,并且这种各向异性可以通过外场进行动态调制。实验结果表明,当LC分子在x - y平面上旋转时,在0.52 THz下相位差可在- 83°和277°之间变化,相移调制深度可达360°(即2 π)。当LC分子在x - z平面旋转时,可以获得相同的相移调制深度,在1.14 THz时,相位差可以在207°到567°之间变化。我们所提出的复合器件在太赫兹波段具有超宽的相移调节和超大的相移调制深度,这可能为各种太赫兹相位和极化器件提供新的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrawide tunable terahertz phase shifter based on double-layer liquid crystal-dielectric grating
The ultrawide tunable terahertz (THz) phase shifter has always been in high demand by THz applications, especially in terms of broadband transmission and phase modulation. In this paper, we design and fabricate a composite device that combines a double-layer liquid crystal (LC) with a double-sided etched grating metasurface. By introducing the natural anisotropy of LC based on the artificial anisotropy of the metasurface, the anisotropy of the device is significantly enhanced, and this anisotropy can be dynamically modulated by an external field. When the LC molecules rotate in the x − y plane, the experimental results show that the phase difference can vary between −83 ∘ and 277° at 0.52 THz with a large phase-shift modulation depth of 360° (i.e., 2 π ). The same phase-shift modulation depth can be obtained when the LC molecules rotate in the x − z plane, in which the phase difference can vary between 207° and 567° at 1.14 THz. Our proposed composite device shows an ultrawide phase shift regulation and an ultra-large phase-shift modulation depth in the THz regime, which may provide a new strategy for various THz phase and polarization devices.
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来源期刊
CiteScore
4.00
自引率
5.30%
发文量
374
审稿时长
2.1 months
期刊介绍: The Journal of the Optical Society of America B (JOSA B) is a general optics research journal that complements JOSA A. It emphasizes scientific research on the fundamentals of the interaction of light with matter such as quantum optics, nonlinear optics, and laser physics. Topics include: Advanced Instrumentation and Measurements Fiber Optics and Fiber Lasers Lasers and Other Light Sources from THz to XUV Light-Induced Phenomena Nonlinear and High Field Optics Optical Materials Optics Modes and Structured Light Optomechanics Metamaterials Nanomaterials Photonics and Semiconductor Optics Physical Optics Plasmonics Quantum Optics and Entanglement Quantum Key Distribution Spectroscopy and Atomic or Molecular Optics Superresolution and Advanced Imaging Surface Optics Ultrafast Optical Phenomena Wave Guiding and Optical Confinement JOSA B considers original research articles, feature issue contributions, invited reviews and tutorials, and comments on published articles.
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