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Broadband Achromatic Metalens in the Visible Light Spectrum Based on Fresnel Zone Spatial Multiplexing

Ruixue Shi, Shuling Hu, Chuanqi Sun, Bin Wang, Qingzhong Cai

2022Nanomaterials16 citationsDOIOpen Access PDF

Abstract

Metalenses composed of a large number of subwavelength nanostructures provide the possibility for the miniaturization and integration of the optical system. Broadband polarization-insensitive achromatic metalenses in the visible light spectrum have attracted researchers because of their wide applications in optical integrated imaging. This paper proposes a polarization-insensitive achromatic metalens operating over a continuous bandwidth from 470 nm to 700 nm. The silicon nitride nanopillars of 488 nm and 632.8 nm are interleaved by Fresnel zone spatial multiplexing method, and the particle swarm algorithm is used to optimize the phase compensation. The maximum time-bandwidth product in the phase library is 17.63. The designed focal length can be maintained in the visible light range from 470 nm to 700 nm. The average focusing efficiency reaches 31.71%. The metalens can achieve broadband achromatization using only one shape of nanopillar, which is simple in design and easy to fabricate. The proposed metalens is expected to play an important role in microscopic imaging, cameras, and other fields.

Topics & Concepts

Achromatic lensOpticsBroadbandNanopillarMaterials scienceOptoelectronicsFresnel lensMiniaturizationMultiplexingBandwidth (computing)PhysicsLens (geology)Computer scienceNanotechnologyNanostructureTelecommunicationsMetamaterials and Metasurfaces ApplicationsOptical Coatings and GratingsAdvanced Antenna and Metasurface Technologies
Broadband Achromatic Metalens in the Visible Light Spectrum Based on Fresnel Zone Spatial Multiplexing | Litcius