4.7 Article

A vortex-focused beam metalens array in the visible light range based on computer-generated holography

Journal

RESULTS IN PHYSICS
Volume 25, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.rinp.2021.104211

Keywords

Vortex-focused beam; Computer-generated holography; Phase modulation; Metalens array

Funding

  1. National Natural Science Foundation of China [60907003, 61805278, 61875168]
  2. China Postdoctoral Science Foundation [2018M633704, 2017M612885]
  3. Foundation of NUDT [JC130213, ZK170301]
  4. Hunan Provincial Natural Science Foundation of China [13JJ3001]
  5. Chongqing Postdoctoral Science Foundation [Xm2017008]
  6. Program for New Century Excellent Talents in University [NCET120142]

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This study presents a metalens array designed to convert circularly polarized light into a vortex beam and focus it, based on computer-generated holography technology. The conversion efficiency of the metalens array exceeds 80% at wavelengths of 420 nm, 550 nm, and 660 nm, with the aim of widespread applications in optical photography and optical communication systems.
In recent years, metasurfaces have demonstrated a tremendous development potential and applicability in various fields as they have overcome the problems associated with traditional optical devices, including bulkiness and difficulties related to integration. The vortex beam can carry an unlimited amount of orbital angular momentum which can greatly increase the capacity of the communication system and thus attain a tremendous applicability potential in communication and information transmission. In this study, a vortex-focused beam metalens array is designed based on computer-generated holography technology for use in the visible light range. The antenna's unit structure is arranged according to the phase distribution designed using computer-generated holography technology. The metalens array can convert circularly polarized light into a vortex beam and can focus the vortex beam. At the wavelengths of 420 nm, 550 nm, and 660 nm, the average conversion efficiency exceeds 80%, and the phase distribution is in the range of 0-2 pi. The metalens array can simultaneously generate and focus the vortex beams. We also studied the focusing effect of different vortex beams, and we analyzed and compared the focal length and full width at half maximum of metalens at different wavelengths and different topological charges. In addition, the focusing of the primary color light by the 3 x 3 metalens array is simulated. The design presented in this study is envisaged to be applied extensively in the fields of optical photography and optical communication systems.

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