High focusing efficiency metalens with large numerical aperture at terahertz frequency.

IF 3.1 2区物理与天体物理 Q2 OPTICS Optics letters Pub Date : 2023-09-01 DOI:10.1364/OL.498397

Mengyu Yang, Xin Shen, Ziping Li, Zhongquan Wen, Gang Chen, Zhihai Zhang, Gaofeng Liang, Hua Li, Zhengguo Shang

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引用次数: 1

Abstract

Metalenses have been widely investigated for their features of high design freedom. For practical applications, it is necessary to maximize the efficiency of the metalens. However, it is a great challenge to realize both a high numerical aperture (NA) and high-efficiency metalens in the community. Here, we introduce a method to design a hybrid metalens with a large numerical aperture and high focusing efficiency at terahertz frequency. The hybrid metalens consists of gradient metasurfaces in the central area and metagrating in the peripheral area to achieve high-efficiency beam focusing. To verify this concept, a hybrid metalens with a numerical aperture of 0.95 was designed at λ = 118.8 μm. The simulation results demonstrate that the focusing efficiency of the hybrid metalens is 65.8%. The experimental results show that the designed metalens is able to increase the focusing efficiency from 22.8% to 41.7%. The full widths at half maxima (FWHMs) of the focused spots of the hybrid metalens in the x direction and y direction are 0.72λ and 0.45λ, respectively. The proposed high-efficiency hybrid metalens has promising application prospects in various applications of a complex optical system.

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在太赫兹频率下具有高聚焦效率的大数值孔径超透镜。

超透镜以其设计自由度高的特点得到了广泛的研究。在实际应用中，有必要使超构透镜的效率最大化。然而，如何同时实现高数值孔径和高效率的超构透镜是目前业界面临的一个巨大挑战。本文介绍了一种在太赫兹频率下设计具有大数值孔径和高聚焦效率的混合超透镜的方法。该杂化超透镜由中心区域的梯度超表面和外围区域的偏转表面组成，以实现光束的高效聚焦。为了验证这一概念，在λ = 118.8 μm处设计了一个数值孔径为0.95的混合超透镜。仿真结果表明，杂化超透镜的聚焦效率为65.8%。实验结果表明，所设计的超透镜能够将聚焦效率从22.8%提高到41.7%。杂化超构透镜在x方向和y方向聚焦斑的半最大值全宽度分别为0.72λ和0.45λ。所提出的高效杂化超构透镜在复杂光学系统的各种应用中具有广阔的应用前景。

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来源期刊

Optics letters 物理-光学

CiteScore

6.60

自引率

8.30%

发文量

2275

审稿时长

1.7 months

期刊介绍： The Optical Society (OSA) publishes high-quality, peer-reviewed articles in its portfolio of journals, which serve the full breadth of the optics and photonics community. Optics Letters offers rapid dissemination of new results in all areas of optics with short, original, peer-reviewed communications. Optics Letters covers the latest research in optical science, including optical measurements, optical components and devices, atmospheric optics, biomedical optics, Fourier optics, integrated optics, optical processing, optoelectronics, lasers, nonlinear optics, optical storage and holography, optical coherence, polarization, quantum electronics, ultrafast optical phenomena, photonic crystals, and fiber optics. Criteria used in determining acceptability of contributions include newsworthiness to a substantial part of the optics community and the effect of rapid publication on the research of others. This journal, published twice each month, is where readers look for the latest discoveries in optics.