Miura Origami‐Inspired Reconfigurable Phase Gradient Metasurface for Linearly and Circularly Polarized Differential Modulation

Zhibiao Zhu; Yongfeng Li; Jiafu Wang; Lixin Jiang; Zhe Qin; Lin Zheng; Hongya Chen; Wenjie Wang; Shaobo Qu

doi:10.1002/adpr.202400025

Advanced Photonics Research (Jul 2024)

Miura Origami‐Inspired Reconfigurable Phase Gradient Metasurface for Linearly and Circularly Polarized Differential Modulation

Zhibiao Zhu,
Yongfeng Li,
Jiafu Wang,
Lixin Jiang,
Zhe Qin,
Lin Zheng,
Hongya Chen,
Wenjie Wang,
Shaobo Qu

Affiliations

Zhibiao Zhu: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Yongfeng Li: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Jiafu Wang: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Lixin Jiang: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Zhe Qin: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Lin Zheng: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Hongya Chen: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Wenjie Wang: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China
Shaobo Qu: Shaanxi Key Laboratory of Artificially‐Structured Functional Materials and Devices Airforce Engineering University Xi'an 710038 China

DOI: https://doi.org/10.1002/adpr.202400025
Journal volume & issue: Vol. 5, no. 7
pp. n/a – n/a

Abstract

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Miura origami's reconfigurable characteristic and structural asymmetry, combined with electromagnetic (EM) wave manipulation, crashed a unique spark. However, the complexity of the three‐dimensional (3D) origami structure after folding makes it challenging to study the phase regulation mechanism. Here, we propose a reconfigurable phase gradient metasurface based on Miura origami and derive the underlying mechanism of phase modulation in detail under linearly and circularly polarized (LP and CP) incidence. We adopt the one‐dimensional (1D) gradient design along the x direction to verify the idea. The phase calculation formulas are given under LP and CP incidence through the Jones matrix's derivation. The beam deflector angles corresponding to LP and CP waves are identical in the planar state. As the folding angle increases, the phase evolution rules corresponding to the LP and CP waves are discrepant, leading to differential beam steering. Finally, the origami sample is processed for verification, and the experimental data are consistent with the simulation and theoretically calculated values. We believe this work can help analyze the EM behavior of complex 3D origami structures and lay a foundation for designing a multifunctional EM origami metasurface.

Published in Advanced Photonics Research

ISSN: 2699-9293 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: https://onlinelibrary.wiley.com/journal/26999293

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