通过集成液晶板和介电超表面产生矢量光束的电可调谐

IF 2.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Photonics Journal Pub Date : 2025-09-16 DOI:10.1109/JPHOT.2025.3610140

Ruisi Wang;Kaishuo Zhang;Jing Wei;Wei Zhao

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引用次数: 0

摘要

矢量光束的产生和调制通常需要对光学元件进行机械调整，从而导致复杂的设置和较长的操作时间。在这项工作中，我们提出了一种通过集成液晶板和介电超表面来产生矢量光束的电控方法。介质超表面具有连续定向的光轴，能够产生高质量的矢量光束。两个均匀的液晶板，相位延迟可通过外部施加的电压调节，允许精确控制的纬度和经度的矢量偏振状态在庞加莱球。一旦实验装置建立，不需要机械调整。液晶板和介电超表面的结合扩展了偏振操作的能力，这导致了一种方便和灵活的方式来产生任何理想的矢量光束。这项工作可能会在量子光学、光学成像和精密传感领域找到潜在的应用，在这些领域，光的动态和精确控制对于提高性能和实现科学功能至关重要。

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Electrically Tunable Generation of Vector Beams via Integrated Liquid Crystal Plates and Dielectric Metasurface

The generation and modulation of vector beams typically require mechanical adjustments of optical components, leading to a complex setup and long manipulation times. In this work, we propose an electrically controllable approach to generate vector beams by integrating liquid crystal plates with a dielectric metasurface. The dielectric metasurface features continuously reoriented optical axis, enabling the generation of high-quality vector beams. Two homogeneous liquid crystal plates, with phase retardation adjustable through an externally applied voltage, allow precise control over the latitude and longitude of vector polarization states on the Poincaré sphere. Once the experimental setup is established, no mechanical adjustments are necessary. The combination of liquid crystal plates and dielectric metasurface extends the capabilities of polarization manipulations, which leads to a convenient and flexible way to generate any desirable vector beams. This work could find potential applications in quantum optics, optical imaging, and precision sensing, where dynamic and precise control of light is crucial for enhancing performance and enabling scientific functionalities.

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来源期刊

IEEE Photonics Journal ENGINEERING, ELECTRICAL & ELECTRONIC-OPTICS

CiteScore

4.50

自引率

8.30%

发文量

489

审稿时长

1.4 months

期刊介绍： Breakthroughs in the generation of light and in its control and utilization have given rise to the field of Photonics, a rapidly expanding area of science and technology with major technological and economic impact. Photonics integrates quantum electronics and optics to accelerate progress in the generation of novel photon sources and in their utilization in emerging applications at the micro and nano scales spanning from the far-infrared/THz to the x-ray region of the electromagnetic spectrum. IEEE Photonics Journal is an online-only journal dedicated to the rapid disclosure of top-quality peer-reviewed research at the forefront of all areas of photonics. Contributions addressing issues ranging from fundamental understanding to emerging technologies and applications are within the scope of the Journal. The Journal includes topics in: Photon sources from far infrared to X-rays, Photonics materials and engineered photonic structures, Integrated optics and optoelectronic, Ultrafast, attosecond, high field and short wavelength photonics, Biophotonics, including DNA photonics, Nanophotonics, Magnetophotonics, Fundamentals of light propagation and interaction; nonlinear effects, Optical data storage, Fiber optics and optical communications devices, systems, and technologies, Micro Opto Electro Mechanical Systems (MOEMS), Microwave photonics, Optical Sensors.