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Your search keyword '"Hu, Yueqiang"' showing total 263 results
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263 results on '"Hu, Yueqiang"'

1. Neural Network-Assisted End-to-End Design for Dispersive Full-Parameter Control of Meta-Optics

Author

Chi, Hanbin, Hu, Yueqiang, Ou, Xiangnian, Jiang, Yuting, Yu, Dian, Lou, Shaozhen, Wang, Quan, Xie, Qiong, Qiu, Cheng-Wei, and Duan, Huigao

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Flexible control light field across multiple parameters is the cornerstone of versatile and miniaturized optical devices. Metasurfaces, comprising subwavelength scatterers, offer a potent platform for executing such precise manipulations. However, the inherent mutual constraints between parameters of metasurfaces make it challenging for traditional approaches to achieve full-parameter control across multiple wavelengths. Here, we propose a universal end-to-end inverse design framework to directly optimize the geometric parameter layout of meta-optics based on the target functionality of full-parameter control across multiple wavelengths. This framework employs a differentiable forward simulator integrating a neural network-based dispersive full-parameter Jones matrix and Fourier propagation to facilitate gradient-based optimization. Its superiority over sequential forward designs in dual-polarization channel color holography with higher quality and tri-polarization three-dimensional color holography with higher multiplexed capacity is showcased. To highlight the universality, we further present polarized spectral multi-information processing with six arbitrary polarizations and three wavelengths. This versatile, differentiable, system-level design framework is poised to expedite the advancement of meta-optics in integrated multi-information display, imaging, and communication, extending to multi-modal sensing applications.

Published
2024

2. Achromatic Full Stokes Polarimetry Metasurface for Full-color Polarization Imaging in the Visible

Author

Hu, Yueqiang, Zhang, Yi, Jiang, Yuting, Wang, Quan, Pan, Meiyan, and Duan, Huigao

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Metasurfaces composed of anisotropic subwavelength structures provide an ultrathin platform for a compact, real-time polarimeter. However, applications in polychromatic scenes are restricted by the limited operating bandwidths and degraded imaging quality due to the loss of spectral information. Here, we demonstrated full-color polarization imaging based on an achromatic polarimeter consisting of four polarization-dependent metalenses. Boosted by an intelligent design scheme, arbitrary phase compensation and multi-objective matching are effectively compatible with a limited database. Broadband achromaticity for wavelengths ranging from 450 nm to 650 nm, with a relative bandwidth of nearly 0.435, is achieved for the full Stokes imaging. The experimental polarization reconstructed errors for operating wavelengths of 450 nm, 550 nm, and 650 nm are 7.5%, 5.9%, and 3.8%, respectively. The full-color and full-polarization imaging capability of the device is also verified with a customized object. The proposed scheme paves the way for further developing polarization imaging toward practical applications.

Published
2024

4. Tunable Polarization-Multiplexed Achromatic Dielectric Metalens

Author

Ou, Xiangnian, Zeng, Tibin, Zhang, Yi, Jiang, Yuting, Gong, Zhongwei, Fan, Fan, Jia, Honghui, Duan, Huigao, and Hu, Yueqiang

Subjects
Physics - Optics
Abstract

Tunable metasurfaces provide a compact and efficient strategy for optical components that require active wavefront shaping. Varifocal metalens is one of the most important applications. However, the existing tunable metalens rarely serves broadband wavelengths restricting their applications in broadband imaging and color display due to chromatic aberration. Herein, we demonstrate an electrically tunable polarization-multiplexed varifocal achromatic dielectric metalens integrated with twisted nematic liquid crystals (TNLCs) in the visible region. The phase profiles at different wavelengths under two orthogonal polarization channels are customized by the particle swarm optimization algorithm and optimally matched with the metaunits database to achieve polarization-multiplexed dispersion manipulation including achromatic performance. By combining the broadband linear polarization conversion ability of TNLC, the tunability of varifocal achromatic metalens is realized by applying different voltages. Further, the electrically tunable customized dispersion-manipulated metalens and switchable color metaholograms are demonstrated. The proposed devices will accelerate the application of metasurfaces in broadband zoom imaging, AR/VR displays, and spectral detection.

Published
2022
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7. Ultra-Broadband Dispersion-Manipulated Dielectric Metalenses by Nonlinear Dispersive Phase Compensation

Author

Hu, Yueqiang, Jiang, Yuting, Zhang, Yi, Lai, Jiajie, He, Peng, Ou, Xiangnian, Li, Ling, and Duan, Huigao

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Dispersion decomposes compound light into monochromatic components at different spatial locations, which needs to be eliminated in imaging but utilized in spectral detection. Metasurfaces provide a unique path to modulate the dispersion only by adjusting the structural parameters without changing the material as required for refractive elements. However, the common linear phase compensation does not conform to the dispersion characteristics of the meta-unit limiting dispersion modulation in broader wavelength bands, which is desired for ultra-broadband or multiband imaging. Here, we propose a nonlinear dispersive phase compensation method to design polarization-insensitive achromatic metalenses from 400 nm to 1000 nm constructed with single-layer high aspect ratio nanostructures. This band matches the response spectrum of a typical CMOS sensor for both visible and near-infrared imaging applications without additional lens replacement. Moreover, the capability of the method in achieving arbitrary dispersion modulation is demonstrated for applications such as chromatography imaging and spectral detection.

Published
2021

14. Metasurface-Enabled On-Chip Multiplexed Diffractive Neural Networks in the Visible

Author

Luo, Xuhao, Hu, Yueqiang, Li, Xin, Ou, Xiangnian, Lai, Jiajie, Liu, Na, and Duan, Huigao

Subjects
Electrical Engineering and Systems Science - Signal Processing, Physics - Optics
Abstract

Replacing electrons with photons is a compelling route towards light-speed, highly parallel, and low-power artificial intelligence computing. Recently, all-optical diffractive neural deep neural networks have been demonstrated. However, the existing architectures often comprise bulky components and, most critically, they cannot mimic the human brain for multitasking. Here, we demonstrate a multi-skilled diffractive neural network based on a metasurface device, which can perform on-chip multi-channel sensing and multitasking at the speed of light in the visible. The metasurface is integrated with a complementary metal oxide semiconductor imaging sensor. Polarization multiplexing scheme of the subwavelength nanostructures are applied to construct a multi-channel classifier framework for simultaneous recognition of digital and fashionable items. The areal density of the artificial neurons can reach up to 6.25x106/mm2 multiplied by the number of channels. Our platform provides an integrated solution with all-optical on-chip sensing and computing for applications in machine vision, autonomous driving, and precision medicine.

Published
2021

16. Magnesium-Based Metasurfaces for Dual-Function Switching between Dynamic Holography and Dynamic Color Display

Author

Li, Jianxiong, Chen, Yiqin, Hu, Yueqiang, Duan, Huigao, and Liu, Na

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Metasurface-based color display and holography have greatly advanced the state of the art display technologies. To further enrich the metasurface functionalities, recently a lot of research endeavors have been made to combine these two display functions within a single device. However, so far such metasurfaces have remained static and lack tunability once the devices are fabricated. In this work, we demonstrate a dynamic dual-function metasurface device at visible frequencies. It allows for switching between dynamic holography and dynamic color display, taking advantage of the reversible phase transition of magnesium through hydrogenation and dehydrogenation. Spatially arranged stepwise nanocavity pixels are employed to accurately control the amplitude and phase of light, enabling the generation of high-quality color prints and holograms. Our work represents a paradigm toward compact and multifunctional optical elements for future display technologies.

Published
2021
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17. Electrically Tunable Multifunctional All-Dielectric Metasurfaces Integrated with Liquid Crystals in the Visible

Author

Hu, Yueqiang, Ou, Xiangnian, Zeng, Tibin, Lai, Jiajie, Zhang, Jian, Li, Xin, Luo, Xuhao, Li, Ling, Fan, Fan, and Duan, Huigao

Subjects
Physics - Optics
Abstract

As two-dimensional metamaterials, metasurfaces open up new avenues for designing static planar optics. However, the dynamic modulation of metasurfaces in the optical band is required for practical applications. The existing dynamic devices rarely utilized the polarization manipulation capability of metasurfaces. Here, we demonstrate an electrically tunable multifunctional metasurface in the visible range by integrating birefringent liquid crystals (LCs) with all-dielectric metasurfaces based on a novel packaging scheme. By combining the helicity-dependent geometric phase of the metasurface and the polarization control ability of LC molecules, continuous intensity tuning and switching of two helicity channels are realized. Electrically tunable single-channel switchable metaholograms, multicolor multiplexed metaholograms, and dynamic varifocal metalenses are designed to verify the concept. The exploration of polarization control in dynamic tuning can pave the way for dynamic metasurface devices in various applications, such as space light modulators, light detection and ranging systems, and holographic displays.

Published
2020
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23. Inverse design of structural color: finding multiple solutions via conditional generative adversarial networks

Author

Dai Peng, Sun Kai, Yan Xingzhao, Muskens Otto L., de Groot C. H. (Kees), Zhu Xupeng, Hu Yueqiang, Duan Huigao, and Huang Ruomeng

Subjects
deep learning, fabry–pérot cavity, generative adversarial networks, inverse design, one-to-many problem, structural color, Physics, QC1-999
Abstract

The “one-to-many” problem is a typical challenge that faced by many machine learning aided inverse nanophotonics designs where one target optical response can be achieved by many solutions (designs). Although novel training approaches, such as tandem network, and network architecture, such as the mixture density model, have been proposed, the critical problem of solution degeneracy still exists where some possible solutions or solution spaces are discarded or unreachable during the network training process. Here, we report a solution to the “one-to-many” problem by employing a conditional generative adversarial network (cGAN) that enables generating sets of multiple solution groups to a design problem. Using the inverse design of a transmissive Fabry–Pérot-cavity-based color filter as an example, our model demonstrates the capability of generating an average number of 3.58 solution groups for each color. These multiple solutions allow the selection of the best design for each color which results in a record high accuracy with an average index color difference ΔE of 0.44. The capability of identifying multiple solution groups can benefit the design manufacturing to allow more viable designs for fabrication. The capability of our cGAN is verified experimentally by inversely designing the RGB color filters. We envisage this cGAN-based design methodology can be applied to other nanophotonic structures or physical science domains where the identification of multi-solution across a vast parameter space is required.

Published
2022
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29. Two-Photon Polymerization Lithography for Imaging Optics

Author

Wang, Hao, primary, Pan, Chengfeng, additional, Li, Chi, additional, Menghrajani, Kishan S., additional, Schmidt, Markus A., additional, Li, Aoling, additional, Fan, Fu, additional, Zhou, Yu, additional, Zhang, Wang, additional, Wang, Hongtao, additional, Nair, Parvathi Nair Suseela, additional, Chan, John You En, additional, Mori, Tomohiro, additional, Hu, Yueqiang, additional, Hu, Guangwei, additional, Maier, Stefan A., additional, Ren, Haoran, additional, Duan, Huigao, additional, and Yang, Joel, additional

Published
2024
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37. All-dielectric metasurfaces for polarization manipulation: principles and emerging applications

Author

Hu Yueqiang, Wang Xudong, Luo Xuhao, Ou Xiangnian, Li Ling, Chen Yiqin, Ping Yang, Wang Shuai, and Duan Huigao

Subjects
all-dielectric materials, matasurface, polarization manipulation, polarization detection and imaging, quantum optics, vector vortex beam, Physics, QC1-999
Abstract

Metasurfaces, composed of specifically designed subwavelength units in a two-dimensional plane, offer a new paradigm to design ultracompact optical elements that show great potentials for miniaturizing optical systems. In the past few decades, metasurfaces have drawn broad interests in multidisciplinary communities owing to their capability of manipulating various parameters of the light wave with plentiful functionalities. Among them, pixelated polarization manipulation in the subwavelength scale is a distinguished ability of metasurfaces compared to traditional optical components. However, the inherent ohmic loss of plasmonic-type metasurfaces severely hinders their broad applications due to the low efficiency. Therefore, metasurfaces composed of high-refractive-index all-dielectric antennas have been proposed to achieve high-efficiency devices. Moreover, anisotropic dielectric nanostructures have been shown to support large refractive index contrast between orthogonal polarizations of light and thus provide an ideal platform for polarization manipulation. Herein, we present a review of recent progress on all-dielectric metasurfaces for polarization manipulation, including principles and emerging applications. We believe that high efficient all-dielectric metasurfaces with the unprecedented capability of the polarization control can be widely applied in areas of polarization detection and imaging, data encryption, display, optical communication and quantum optics to realize ultracompact and miniaturized optical systems.

Published
2020
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40. Chinese herbal medicine Qinggongshoutao for the treatment of amnestic mild cognitive impairment: A 52-week randomized controlled trial

Author

Tian, Jinzhou, Shi, Jing, Wei, Mingqing, Ni, Jingnian, Fang, Zhiyong, Gao, Jinyu, Wang, Heng, Yao, Hongjun, Zhang, Jintao, Li, Juntao, Min, Min, Su, Likai, Sun, Xiuqiao, Wang, Baoai, Wang, Baoshen, Yang, Faming, Zou, Yong, Hu, Yueqiang, Lin, Yaming, Xu, Guangyin, Li, Kang, Li, Lei, Zhen, Hui, Xu, Jinyan, Chen, Keji, and Wang, Yongyan

Published
2019
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46. Topologically optimized concentric-nanoring metalens with 1 mm diameter, 0.8 NA and 600 nm imaging resolution in the visible

Author

Jin, Zhao, primary, Lin, Yu, additional, Wang, Chengmiao, additional, Han, Yeming, additional, Li, Bowen, additional, Zhang, Jianyu, additional, Zhang, Xin, additional, Jia, Ping, additional, Hu, Yueqiang, additional, Liu, Qing, additional, Duan, Huigao, additional, Korvink, Jan G., additional, Li, Yingchao, additional, Jiang, Huilin, additional, and Deng, Yongbo, additional

Published
2023
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