Dual-Control Tunable Metalens With Large Zoom Range

IF 4.8 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Lightwave Technology Pub Date : 2024-08-07 DOI:10.1109/JLT.2024.3440031

Gongli Xiao;Jiarong Zhang;Hongyan Yang;QuanLin He;Zanhui Chen;Bing Wang

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Abstract

Tunable metasurfaces present a novel approach to compact planar optics development. However, most tunable metasurfaces limit dynamic adjustability due to a single control method. In this study, we investigate the potential of integrating polarization with elastic materials and showcase a tunable metalens that leverages both polarization and stretching control. The tunable range through stretching is measured at 11.4 to 20.6 μm for x-polarization and 20.7 to 36.4 μm for y-polarization. The zoom range achieved is 213.8% of the minimum focal length. The metalens demonstrate a focusing efficiency of over 30% and almost diffraction-limited focusing. Additionally, we fabricate metalenses with polarization-only and stretch-only controls for comparison purposes. Our results indicate that the dual control approach effectively addresses the limitations of conventional polarization-multiplexed metalenses in achieving continuous zoom capability. Furthermore, compared to single-control tunable metalenses, the dual control metalens exhibits a significantly wider adjustable zoom range. We anticipate that this design holds promising application prospects in VR/AR display and holographic imaging.

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双控可调金属镜片，变焦范围大

可调元表面为紧凑型平面光学的发展提供了一种新方法。然而，由于控制方法单一，大多数可调元表面都限制了动态可调性。在这项研究中，我们研究了将偏振与弹性材料相结合的潜力，并展示了同时利用偏振和拉伸控制的可调金属膜。通过拉伸测得的可调范围为：x 偏振 11.4 至 20.6 μm，y 偏振 20.7 至 36.4 μm。实现的变焦范围是最小焦距的 213.8%。金属膜的聚焦效率超过 30%，几乎实现了衍射极限聚焦。此外，为了进行比较，我们还制作了仅偏振控制和仅拉伸控制的金属透镜。我们的研究结果表明，双控制方法有效地解决了传统偏振多路金属透镜在实现连续变焦能力方面的局限性。此外，与单控制可调金属透镜相比，双控制金属透镜的可调变焦范围更广。我们预计，这种设计在 VR/AR 显示和全息成像领域具有广阔的应用前景。

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来源期刊

Journal of Lightwave Technology 工程技术-工程：电子与电气

CiteScore

9.40

自引率

14.90%

发文量

936

审稿时长

3.9 months

期刊介绍： The Journal of Lightwave Technology is comprised of original contributions, both regular papers and letters, covering work in all aspects of optical guided-wave science, technology, and engineering. Manuscripts are solicited which report original theoretical and/or experimental results which advance the technological base of guided-wave technology. Tutorial and review papers are by invitation only. Topics of interest include the following: fiber and cable technologies, active and passive guided-wave componentry (light sources, detectors, repeaters, switches, fiber sensors, etc.); integrated optics and optoelectronics; and systems, subsystems, new applications and unique field trials. System oriented manuscripts should be concerned with systems which perform a function not previously available, out-perform previously established systems, or represent enhancements in the state of the art in general.