Multi-spectral all-dielectric co-aperture metasurface with high microwave transmission and infrared focusing

Dengshuang Yi; Jiakai Zhang; Zhiyi Zhang; Jialin Mei; Jian Bai; Jiahui Fu; Kuang Zhang; Shah Nawaz Burokur

doi:10.1364/OL.570413

Multi-spectral all-dielectric co-aperture metasurface with high microwave transmission and infrared focusing

Dengshuang Yi
, Jiakai Zhang
, Zhiyi Zhang
, Jialin Mei
, Jian Bai
, Jiahui Fu
, Kuang Zhang
, Shah Nawaz Burokur

School of Electronics and Information Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

In this Letter, we propose a metasurface for microwave-infrared (MW-IR) co-aperture detection, which presents the advantages of low-profile, light-weight, and low cost for a facilitated integration compared to conventional MW-IR co-aperture devices. In the microwave domain, based on impedance matching, a polarization-insensitive transparent window at Ka band is achieved, and in the infrared domain, focusing is realized through a metalens by judiciously designing the diameter of the nanopillars to modulate the phase distribution at a wavelength of 9.68 μm. To validate the co-aperture design framework, a proof-of-concept metasurface prototype is fabricated and experimentally tested. The measured results demonstrate good agreement with simulations, validating an innovative approach for MW-IR hybrid sensing, which may have potential applications in target detection, autonomous vehicles, and smart homes.

Original language	English
Pages (from-to)	5905-5908
Number of pages	4
Journal	Optics Letters
Volume	50
Issue number	18
DOIs	https://doi.org/10.1364/OL.570413
State	Published - 15 Sep 2025

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10.1364/OL.570413

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title = "Multi-spectral all-dielectric co-aperture metasurface with high microwave transmission and infrared focusing",

abstract = "In this Letter, we propose a metasurface for microwave-infrared (MW-IR) co-aperture detection, which presents the advantages of low-profile, light-weight, and low cost for a facilitated integration compared to conventional MW-IR co-aperture devices. In the microwave domain, based on impedance matching, a polarization-insensitive transparent window at Ka band is achieved, and in the infrared domain, focusing is realized through a metalens by judiciously designing the diameter of the nanopillars to modulate the phase distribution at a wavelength of 9.68 μm. To validate the co-aperture design framework, a proof-of-concept metasurface prototype is fabricated and experimentally tested. The measured results demonstrate good agreement with simulations, validating an innovative approach for MW-IR hybrid sensing, which may have potential applications in target detection, autonomous vehicles, and smart homes.",

author = "Dengshuang Yi and Jiakai Zhang and Zhiyi Zhang and Jialin Mei and Jian Bai and Jiahui Fu and Kuang Zhang and Burokur, \{Shah Nawaz\}",

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doi = "10.1364/OL.570413",

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T1 - Multi-spectral all-dielectric co-aperture metasurface with high microwave transmission and infrared focusing

AU - Yi, Dengshuang

AU - Zhang, Jiakai

AU - Zhang, Zhiyi

AU - Mei, Jialin

AU - Bai, Jian

AU - Fu, Jiahui

AU - Zhang, Kuang

AU - Burokur, Shah Nawaz

PY - 2025/9/15

Y1 - 2025/9/15

N2 - In this Letter, we propose a metasurface for microwave-infrared (MW-IR) co-aperture detection, which presents the advantages of low-profile, light-weight, and low cost for a facilitated integration compared to conventional MW-IR co-aperture devices. In the microwave domain, based on impedance matching, a polarization-insensitive transparent window at Ka band is achieved, and in the infrared domain, focusing is realized through a metalens by judiciously designing the diameter of the nanopillars to modulate the phase distribution at a wavelength of 9.68 μm. To validate the co-aperture design framework, a proof-of-concept metasurface prototype is fabricated and experimentally tested. The measured results demonstrate good agreement with simulations, validating an innovative approach for MW-IR hybrid sensing, which may have potential applications in target detection, autonomous vehicles, and smart homes.

AB - In this Letter, we propose a metasurface for microwave-infrared (MW-IR) co-aperture detection, which presents the advantages of low-profile, light-weight, and low cost for a facilitated integration compared to conventional MW-IR co-aperture devices. In the microwave domain, based on impedance matching, a polarization-insensitive transparent window at Ka band is achieved, and in the infrared domain, focusing is realized through a metalens by judiciously designing the diameter of the nanopillars to modulate the phase distribution at a wavelength of 9.68 μm. To validate the co-aperture design framework, a proof-of-concept metasurface prototype is fabricated and experimentally tested. The measured results demonstrate good agreement with simulations, validating an innovative approach for MW-IR hybrid sensing, which may have potential applications in target detection, autonomous vehicles, and smart homes.

UR - https://www.scopus.com/pages/publications/105016422948

U2 - 10.1364/OL.570413

DO - 10.1364/OL.570413

M3 - 文章

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AN - SCOPUS:105016422948

SN - 0146-9592

VL - 50

SP - 5905

EP - 5908

JO - Optics Letters

JF - Optics Letters

IS - 18

ER -

Multi-spectral all-dielectric co-aperture metasurface with high microwave transmission and infrared focusing

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