位置: 首页 > > 研究成果

代表性研究成果

【项目】

1. 国家自然科学基金委员会, 联合基金项目, U21A20140, 基于超表面的AR显示元件与系统设计及其制造基础研究, 2022-01-01 至 2025-12-31, 260万元, 在研, 主持;

2. 科技部, 重点研发计划青年科学家项目, 2021YFA1401200, 面向多维度光通信的纳米光源及智能超表面物态调控研究, 2021-12 至 2026-11, 500万元, 在研, 主持;

3. 科技委, 基础加强XXXXXX, 2021-XXXX-JJ-0833, 超微型XXXXXXXXXX, 2021-10 至 2024-09, 200万元, 在研, 主持;

4. 北京市教育委员会, 北京市卓越青年科学家项目, BJJWZYJH01201910007022, 超颖表面物理机制及功能应用, 2019-01 至 2023-12, 1650万元, 结题, 主持;

5. 国家自然科学基金委员会, 国际(地区)合作与交流项目, 61861136010, 基于动态多功能及非线性应用的光学超颖表面, 2019-01-01 至 2021-12-31, 133万元, 结题, 主持;

所有研究成果

2025

[1] Zhou H, Zhao C, He C, et al.Multi-fold Phase Metasurface Holography Based on Frequency and Hybrid Decoupling Polarizations[J].Advanced Optical Materials,2025, 13 (6).

[2] Zhou C, Zhao R, Li P, et al.Dual-Polarized Broadband Laplace Differentiator via Quasi-Bound States in the Continuum Empowered by Nonlocal Metasurfaces[J].Advanced Functional Materials,2025.

[3] Zhou C, Wang Y, Huang L.All-optical analog differential operation and information processing empowered by meta-devices[J].Nanophotonics,2025, 14 (8): 1021-1044.

[4] Zhou C, Muhammad N, Zhao R, et al.Metasurface enabled broadband, high numerical aperture Laplace differentiator under multiple polarization illumination[J].PhotoniX,2025, 6 (1).

[5] Zhang S, Li P, Zhang X, et al.Vectorial Wavefront Manipulations Based on Misalignment Resilient Cascaded Metasurfaces[J].Laser and Photonics Reviews,2025.

[6] Yin Y, Jiang Q, Wang H, et al.Color Holographic Display Based on Complex-Amplitude Metasurface[J].Laser and Photonics Reviews,2025, 19 (1).

[7] Xiong H, Zhang X, Li P, et al.3D Multiview Holographic Display with Wide Field of View Based on Metasurface[J].Advanced Optical Materials,2025, 13 (5).

[8] Wu H, Li J, Yang Z, et al.Research Progress on Three-Dimensional Imaging Using Metasurfaces (Invited)[J].Laser and Optoelectronics Progress,2025, 62 (10).

[9] Muhammad N, Begum A, Su Z, et al.Second harmonic generation from bound-state in the continuum-hosted few-layers van der Waals metasurface[J].Nanophotonics,2025, 14 (2): 263-270.

[10] Liao Q, Liu Y, Muhammad N, et al.Fiber tip integrated metalens for polarization-dependent dual-focus[J].Optics Express,2025, 33 (7): 16381-16388.

[11] Li N, Chen H, Zhao Y, et al.Ultrasensitive metasurface sensor based on quasi-bound states in the continuum[J].Nanophotonics,2025, 14 (4): 485-494.

[12] Dong B, Zhu S, Guo G, et al.Switchable Pancharatnam–Berry Phases in Heterogeneously Integrated THz Metasurfaces[J].Advanced Materials,2025, 37 (6).

[13] Jing XL, Liao QM, Liang MS et al. Three-dimensional measurement enabled by single-layer all-in-one transmitting-receipting optical metasystem. Opto-Electron Adv 8, 240299 (2025).

2024

[1] Zhou H, Zhao C, He C, et al.Optical computing metasurfaces: applications and advances[J].Nanophotonics,2024, 13 (4): 419-441.

[2] Zhou C, Chen Y, Li Y, et al.Laplace Differentiator Based on Metasurface with Toroidal Dipole Resonance[J].Advanced Functional Materials,2024, 34 (19).

[3] Zhao R, Huang L.High efficiency and dynamic modulation of nonlinear metasurfaces[J].Light: Science and Applications,2024, 13 (1).

[4] Zhang X, Zhu S, Li P, et al.Alias Transformation of Structured Beam and Holography in Real and Fourier Space Based on Dielectric Metasurface[J].Laser and Photonics Reviews,2024, 18 (5).

[5] Zhang X, Li X, Zhang S, et al.Light Field Transformation of Metasurface Based on Arbitrary Jones Matrix[J].Laser and Photonics Reviews,2024, 18 (12).

[6] Zhang X, Li T, Zhou H, et al.Switchable Diffraction Pattern Based on Cascaded Metasurfaces[J].Laser and Photonics Reviews,2024, 18 (5).

[7] Zhang X, Ji X, Li X, et al.Spatial Varying Vectorial Holography and Polarization Encryption Based on Birefringent Metasurface[J].Advanced Functional Materials,2024, 34 (41).

[8] Zhang N, Huang Z, Zhang Z, et al.Advances of Optical Computing and Optoelectronic Intelligent Computing[J].Zhongguo Jiguang/Chinese Journal of Lasers,2024, 51 (18).

[9] Zeng H, Lu P, Li X, et al.Multiuser computational imaging encryption and authentication with OFDM-assisted key management[J].Advanced Photonics Nexus,2024, 3 (5).

[10] Yin Y, Jiang Q, Wang H, et al.Multi-Dimensional Multiplexed Metasurface Holography by Inverse Design[J].Advanced Materials,2024, 36 (21).

[11] Yao E, Su Z, Bi Y, et al.Tunable quasi-bound states in the continuum in magneto-optical metasurfaces[J].Journal of Physics D: Applied Physics,2024, 57 (37).

[12] Yang J, Zhao R, Li Y, et al.Transformation of Longitudinally Customizable Curved Vector Vortex Beams Using Dielectric Metasurface[J].Laser and Photonics Reviews,2024, 18 (10).

[13] Xu C, Zhao R, Zhang X, et al.Quasicrystal metasurface for dual functionality of holography and diffraction generation[J].eLight,2024, 4 (1).

[14] Wang Z, Xiang Z, Li X, et al.Dual-control of incubation effect for efficiently fabricating surface structures in fused silica[J].Nanophotonics,2024, 13 (21): 4057-4065.

[15] Su Z, Yang Y, Xiong B, et al.Planar Chiral Metasurface Based on Coupling Quasi-Bound States in the Continuum[J].Advanced Optical Materials,2024, 12 (16).

[16] Shao Y, Zhaoxian S U, Haoyang H E, et al.Multispectral imaging through metasurface with quasi-bound states in the continuum[J].Optics Express,2024, 32 (13): 23268-23279.

[17] Muhammad N, Su Z, Jiang Q, et al.Radiationless optical modes in metasurfaces: recent progress and applications[J].Light: Science and Applications,2024, 13 (1).

[18] Liu C, Wang H, Zhao R, et al.Multi-plane vectorial holography based on a height tunable metasurface fabricated by femtosecond laser direct writing[J].Photonics Research,2024, 12 (10): 2158-2165.

[19] Li Y, Yang J, Zhao R, et al.Ultracompact polarization multiplexing meta-combiner for augmented reality display[J].Optics Express,2024, 32 (4): 6266-6276.

[20] Li X, Xu Z, Yang J, et al.Advances in Phase Imaging Based on Metasurfaces[J].Laser and Optoelectronics Progress,2024, 61 (2).

[21] Li T, Li L, Jiang L, et al.Reconfigurable Hologram Response to Liquid via the Femtosecond Laser Direct Writing of 3D Micropillars[J].Advanced Optical Materials,2024, 12 (29).

[22] Li T, Jiang L, Wang Z, et al.High-Quality Micropattern Printing by Complex-Amplitude Modulation Holographic Femtosecond Laser[J].Advanced Optical Materials,2024, 12 (23).

[23] Li C, Li X, He C, et al.Metasurface-Based Structured Light Sensing Without Triangulation[J].Advanced Optical Materials,2024, 12 (7).

[24] He H, Zhang Y, Shao Y, et al.Meta-Attention Network Based Spectral Reconstruction with Snapshot Near-Infrared Metasurface[J].Advanced Materials,2024, 36 (23).

[25] He C, Zhao D, Fan F, et al.Pluggable multitask diffractive neural networks based on cascaded metasurfaces[J].Opto-Electronic Advances,2024, 7 (2).

[26] Cui T J, Zhang S, Alù A, et al.Roadmap on electromagnetic metamaterials and metasurfaces[J].JPhys Photonics,2024, 6 (3).

[27] Chen Y, Xu Z, Zhao R, et al.Multi-Dimensional and High-Capacity Metasurface Holography and Light Modulation[J].Guangxue Xuebao/Acta Optica Sinica,2024, 44 (2).

[28] Chen Y, Liang Q, Sun H, et al.Kissing-loop nano-kirigami structures with asymmetric transmission and anomalous reflection[J].Light: Advanced Manufacturing,2024, 5 (4).

[29] Bi Y, Huang L, Li T, et al.Active metasurface via magnetic control for tri-channel polarization multiplexing holography[J].Chinese Optics Letters,2024, 22 (4).

2023

[1] Zhu S, Jiang Q, Wang Y, et al.Nonmechanical varifocal metalens using nematic liquid crystal[J].Nanophotonics,2023, 12 (6): 1169-1176.

[2] Zhu S, Dong B, Guo G, et al.Terahertz Metasurfaces for Thermally Controlled Optical Encryption[J].Laser and Photonics Reviews,2023, 17 (10).

[3] Zhou H, Liao K, Su Z, et al.Tunable on-chip mode converter enabled by inverse design[J].Nanophotonics,2023, 12 (6): 1105-1114.

[4] Zhao R, Wei Q, Li Y, et al.Stereo Jones Matrix Holography with Longitudinal Polarization Transformation[J].Laser and Photonics Reviews,2023, 17 (8).

[5] Zhao R, Li X, Geng G, et al.Encoding arbitrary phase profiles to 2D diffraction orders with controllable polarization states[J].Nanophotonics,2023, 12 (1): 155-163.

[6] Zhang Y, Su Z, Wang Y, et al.Non-Hermitian higher-order topological corner states on the extended kagome lattice[J].Applied Physics Letters,2023, 123 (22).

[7] Zhang S, Zhou H, Liu B, et al.Recent Advances and Prospects of Optical Metasurfaces[J].ACS Photonics,2023, 10 (7): 2045-2063.

[8] Yang S, Wei Q, Zhao R, et al.Realizing depth measurement and edge detection based on a single metasurface[J].Nanophotonics,2023, 12 (16): 3385-3393.

[9] Yang S, Huang L, Wang Y.Holography and cloaking based on polarization multiplexing conformal meta surfaces[J].Guangxue Jishu/Optical Technique,2023, 49 (5): 522-527.

[10] Yang J, Zhao R, Li Y, et al.Generation of the Bessel Beam of Longitudinally Varied Polarization with Dielectric Metasurfaces[J].Advanced Optical Materials,2023, 11 (10).

[11] Wang H, Qin Z, Zhou H, et al.Origami–Kirigami Arts: Achieving Circular Dichroism by Flexible Meta-Film for Electromagnetic Information Encryption[J].Laser and Photonics Reviews,2023, 17 (2).

[12] Liu Y, Liao Q, Zhang N, et al.Raman Spectroscopy Fiber Probe Based on Metalens and Multimode Fiber for Malachite Green Determination[J].IEEE Sensors Journal,2023, 23 (15): 16866-16872.

[13] Liu Y, Liao Q, Wang Y, et al.Ultracompact metalens-based beam-focusing fiber-optic device with a large numerical aperture[J].Optics Letters,2023, 48 (7): 1742-1745.

[14] Liu B, Geromel R, Su Z, et al.Nonlinear Dielectric Geometric-Phase Metasurface with Simultaneous Structure and Lattice Symmetry Design[J].ACS Photonics,2023, 10 (12): 4357-4366.

[15] Li X, Zhang S, Zhang X, et al.Multi-Dimensional Light Field Manipulation by Metasurfaces and Holographic Display Technology[J].Guangxue Xuebao/Acta Optica Sinica,2023, 43 (15).

[16] Li X, Chen Q, Zhang X, et al.Time-sequential color code division multiplexing holographic display with metasurface[J].Opto-Electronic Advances,2023, 6 (8).

[17] Li T, Liao K, Zhou H, et al.On-Chip Metaline for Multiport Beam Splitting[J].Advanced Optical Materials,2023, 11 (7).

[18] Li T, Chen Y, Wang Y, et al.Three-dimensional dipole momentum analog based on L-shape metasurface[J].Applied Physics Letters,2023, 122 (14).

[19] Jing X, Wang Y, Huang L.Metasurface-Based Three-Dimensional Imaging Technique[J].Laser and Optoelectronics Progress,2023, 60 (8).

[20] Jing X, Li Y, Li J, et al.Active 3D positioning and imaging modulated by single fringe projection with compact metasurface device[J].Nanophotonics,2023, 12 (10): 1923-1930.

[21] Jiang Q, Liu J, Li J, et al.Multiwavelength Achromatic Metalens in Visible by Inverse Design[J].Advanced Optical Materials,2023, 11 (15).

[22] Huang L, Chen Q, Yin Y, et al.High-resolution metalens imaging based on SRResNet and point diffusion function design[J].Guangxue Jishu/Optical Technique,2023, 49 (4): 385-389and411.

2022

[1] Zhou H, Li X, Xu Z, et al.Correlated triple hybrid amplitude and phase holographic encryption based on a metasurface[J].Photonics Research,2022, 10 (3): 678-686.

[2] Zhou H, Li X, Wang H, et al.Ultra-dense moving cascaded metasurface holography by using a physics-driven neural network[J].Optics Express,2022, 30 (14): 24285-24294.

[3] Zhou H, Li X, Ullah N, et al.Single-shot phase retrieval based on anisotropic metasurface[J].Applied Physics Letters,2022, 120 (16).

[4] Zheng R, Pan R, Geng G, et al.Active multiband varifocal metalenses based on orbital angular momentum division multiplexing[J].Nature Communications,2022, 13 (1).

[5] Zhao R, Geng G, Wei Q, et al.Controllable Polarization and Diffraction Modulated Multi-Functionality Based on Metasurface[J].Advanced Optical Materials,2022, 10 (8).

[6] Zhang X, Li X, Zhou H, et al.Multifocal Plane Display Based on Dual Polarity Stereoscopic Metasurface[J].Advanced Functional Materials,2022, 32 (52).

[7] Zhang X, Huang L, Zhao R, et al.Basis function approach for diffractive pattern generation with Dammann vortex metasurfaces[J].Science Advances,2022, 8 (40).

[8] Zhang X, Huang L, Zhao R, et al.Multiplexed Generation of Generalized Vortex Beams with On-Demand Intensity Profiles Based on Metasurfaces[J].Laser and Photonics Reviews,2022, 16 (3).

[9] Zhang S, Huang L, Geng G, et al.Full-Stokes polarization transformations and time sequence metasurface holographic display[J].Photonics Research,2022, 10 (4): 1031-1038.

[10] Yang J Z, Zhao R Z, Meng Z, et al.Quantum metasurface holography[J].Photonics Research,2022, 10 (11): 2607-2613.

[11] Yan J, Wei Q, Liu Y, et al.Single Pixel Imaging Key for Holographic Encryption Based on Spatial Multiplexing Metasurface[J].Small,2022, 18 (35).

[12] Yan J, Wang Y, Liu Y, et al.Single pixel imaging based on large capacity spatial multiplexing metasurface[J].Nanophotonics,2022, 11 (13): 3071-3080.

[13] Wei Q, Huang L, Zhao R, et al.Rotational Multiplexing Method Based on Cascaded Metasurface Holography[J].Advanced Optical Materials,2022, 10 (8).

[14] Wang Z, Jiang L, Li X, et al.High efficiency and scalable fabrication of fresnel zone plates using holographic femtosecond pulses[J].Nanophotonics,2022, 11 (13): 3081-3091.

[15] Wang T, Yang Z, Feng H, et al.Fabrication and Study of Flexible Visibly Transparent Electrodes Using Silver Nanowires Invited[J].Guangzi Xuebao/Acta Photonica Sinica,2022, 51 (9).

[16] Wang H, Zhou H, Li T, et al.Tailoring circular dichroism via the Born-Kuhn model for meta-holograms[J].Science China: Physics, Mechanics and Astronomy,2022, 65 (10).

[17] Wang H, Wan W, Huang L, et al.Tailoring the Excited and Cutoff States of Spoof Surface Plasmon Polaritons for Full-Space Quadruple Functionalities[J].ACS Applied Materials and Interfaces,2022, 14 (4): 6230-6238.

[18] Wang H, Qin Z, Huang L, et al.Metasurface with dynamic chiral meta-atoms for spin multiplexing hologram and low observable reflection[J].PhotoniX,2022, 3 (1).

[19] Ullah N, Zhao R, Huang L.Recent Advancement in Optical Metasurface: Fundament to Application[J].Micromachines,2022, 13 (7).

[20] Ullah N, Huang L, Amirzada M R, et al.Investigation of Leakage Current in Micro M-IM Structure Using Multilayer High-K Dielectric Materials with COMSOL Multiphysics[J].Elektronika ir Elektrotechnika,2022, 28 (2): 72-77.

[21] Su Z, Gao W, Liu B, et al.Three-dimensional Dirac semimetal metamaterial enabled by negative couplings[J].New Journal of Physics,2022, 24 (3).

[22] Reineke Matsudo B, Sain B, Carletti L, et al.Efficient Frequency Conversion with Geometric Phase Control in Optical Metasurfaces[J].Advanced Science,2022, 9 (12).

[23] Liu Y, Liao Q, Huang L.Multifunctional lab on fiber tips based on metasurface[J].Guangxue Jingmi Gongcheng/Optics and Precision Engineering,2022, 30 (15): 1802-1814.

[24] Liu Y, Li X, Chen Y, et al.Imaging-based optical barcoding for relative humidity sensing based on meta-tip[J].Nanophotonics,2022, 11 (1): 111-118.

[25] Liu Y, Chen Y, Zhou S, et al.Fiber-optic meta-tip with multi-sensitivity resonance dips for humidity sensing[J].Sensors and Actuators B: Chemical,2022, 352.

[26] Liu B, Zhou Z, Wang Y, et al.Experimental verification of the acoustic geometric phase[J].Applied Physics Letters,2022, 120 (21).

[27] Liu B, Wei Q, Su Z, et al.Multifunctional acoustic holography based on compact acoustic geometric-phase meta-array[J].Journal of Applied Physics,2022, 131 (18).

[28] Liu B, Wei Q, Su Z, et al.Erratum: Multifunctional acoustic holography based on compact acoustic geometric-phase meta-array (J. Appl. Phys. (2022) 131 (185108) DOI: 10.1063/5.0085562)[J].Journal of Applied Physics,2022, 131 (22).

[29] Liao Q, Yang J, Wang Y, et al.Augmented Reality Technology Based on Micro- and Nano-Optical Elements[J].Laser and Optoelectronics Progress,2022, 59 (20).

[30] Li X, Zhang X, Zhao R, et al.Independent Light Field Manipulation in Diffraction Orders of Metasurface Holography[J].Laser and Photonics Reviews,2022, 16 (8).

[31] Ju Y, Peng J, Chen Y, et al.Water-Sensitive Mixed-Phase PEA6SnI8Perovskite Derivative Single Crystal for Humidity Detection[J].Crystal Growth and Design,2022, 22 (8): 4689-4695.

[32] Jing X, Zhao R, Li X, et al.Single-shot 3D imaging with point cloud projection based on metadevice[J].Nature Communications,2022, 13 (1).

[33] Jiang Q, Hu L, Geng G, et al.Arbitrary amplitude and phase control in visible by dielectric metasurface[J].Optics Express,2022, 30 (8): 13530-13539.

[34] Dong B, Zhao R, Wei Q, et al.Terahertz switchable VO2-Au hybrid active metasurface holographic encryption[J].Optics Express,2022, 30 (12): 20750-20761.

[35] Dong B, Zhang C, Guo G, et al.BST-silicon hybrid terahertz meta-modulator for dual-stimuli-triggered opposite transmission amplitude control[J].Nanophotonics,2022, 11 (9): 2075-2083.

[36] Chen Y, Zhao R, He H, et al.Spectrum dispersion element based on the metasurface with parabolic phase[J].Optics Express,2022, 30 (18): 32670-32679.

[37] Chen Y, Huang L, Liu B, et al.Broadband achromatic metalens and meta-deflector based on integrated metasurface[J].Journal of Physics D: Applied Physics,2022, 55 (2).

[38] Cai S, Ju Y, Wang Y, et al.Fast-Response Oxygen Optical Fiber Sensor based on PEA2SnI4 Perovskite with Extremely Low Limit of Detection[J].Advanced Science,2022, 9 (8).

[39] Cai S, Hu W, Liu Y, et al.Optical fiber hydrogen sensor using metasurfaces composed of palladium[J].Chinese Optics Letters,2022, 20 (5).

[40] Bi Y, Huang L, Zhao R, et al.Magnetically controllable holographic encryption based on a magneto-optical metasurface[J].Optics Express,2022, 30 (5): 8366-8375.

2021

[1] Zhu S, Xu Z, Zhang H, et al.Liquid crystal integrated metadevice for reconfigurable hologram displays and optical encryption[J].Optics Express,2021, 29 (6): 9553-9564.

[2] Zhou H, Wang Y, Li X, et al.A deep learning approach for trustworthy high-fidelity computational holographic orbital angular momentum communication[J].Applied Physics Letters,2021, 119 (4).

[3] Zhao R, Xiao X, Geng G, et al.Polarization and Holography Recording in Real- and k-Space Based on Dielectric Metasurface[J].Advanced Functional Materials,2021, 31 (27).

[4] Zhang S, Huang L, Li X, et al.Dynamic Display of Full-Stokes Vectorial Holography Based on Metasurfaces[J].ACS Photonics,2021, 8 (6): 1746-1753.

[5] Yao Z, Li X, Wang Z, et al.High-efficiency fabrication of computer-generated holograms in silica glass using a femtosecond Bessel beam[J].Optics and Laser Technology,2021, 135.

[6] Xie L, Chen B, Zhang F, et al.Stability enhancement of Cs3Cu2I5 powder with high blue emission realized by Na+ doping strategy[J].Journal of Luminescence,2021, 239.

[7] Wang Z, Jiang L, Li X, et al.Thermally Reconfigurable Hologram Fabricated by Spatially Modulated Femtosecond Pulses on a Heat-Shrinkable Shape Memory Polymer for Holographic Multiplexing[J].ACS Applied Materials and Interfaces,2021, 13 (43): 51736-51745.

[8] Wang Y, Zhou H, Yan J, et al.Advances in Computational Optics Based on Deep Learning[J].Zhongguo Jiguang/Chinese Journal of Lasers,2021, 48 (19).

[9] Wang H, Li Y, Huang L, et al.Achieving Broadband Spin-Correlated Asymmetric Reflection Using a Circular Dichroitic Meta-Mirror[J].Annalen der Physik,2021, 533 (3).

[10] Wang H, Jing Y, Li Y, et al.Spin-selective corner reflector for retro-reflection and absorption by a circular dichroitic manner[J].Photonics Research,2021, 9 (5): 726-733.

[11] Wang H, Jing Y, Li Y, et al.Tailoring Circular Dichroism for Simultaneous Control of Amplitude and Phase via Ohmic Dissipation Metasurface[J].Advanced Optical Materials,2021, 9 (12).

[12] Wang H, Cheng Y, Huang L, et al.Simultaneous control of amplitude and phase via shifting isotropy to anisotropy for achieving holographic meta-mirror[J].Optics Express,2021, 29 (26): 43745-43756.

[13] Su Z X, Yao E X, Huang L L, et al.Optical topological characteristics of two dimensional artificial metamaterials[J].Chinese Optics,2021, 14 (4): 955-967.

[14] Su Z X, Liu B Y, Huang L L, et al.Type-I Weyl points induced by negative coupling in photonic crystal[J].Science China: Physics, Mechanics and Astronomy,2021, 64 (6).

[15] Rosen J, Alford S, Anand V, et al.Roadmap on recent progress in finch technology[J].Journal of Imaging,2021, 7 (10).

[16] Liu Y, Liao Q, Wang Z, et al.Compact magnetic field sensor based on plasmonic fiber-tip[J].Optics Express,2021, 29 (23): 38904-38914.

[17] Liu B, Su Z, Zeng Y, et al.Acoustic geometric-phase meta-array[J].New Journal of Physics,2021, 23 (11).

[18] Li X, Zhao R, Wei Q, et al.Code Division Multiplexing Inspired Dynamic Metasurface Holography[J].Advanced Functional Materials,2021, 31 (35).

[19] Lei S, Zhang X, Zhu S, et al.Generation of Airy beam arrays in real and K spaces based on a dielectric metasurface[J].Optics Express,2021, 29 (12): 18781-18790.

[20] Huang J, Jiang L, Li X, et al.Controllable Photonic Structures on Silicon-on-Insulator Devices Fabricated Using Femtosecond Laser Lithography[J].ACS Applied Materials and Interfaces,2021, 13 (36): 43622-43631.

[21] Georgi P, Wei Q, Sain B, et al.Optical secret sharing with cascaded metasurface holography[J].Science Advances,2021, 7 (16).

[22] Frese D, Wei Q, Wang Y, et al.Nonlinear Bicolor Holography Using Plasmonic Metasurfaces[J].ACS Photonics,2021, 8 (4): 1013-1019.

[23] Frese D, Sain B, Zhou H, et al.A wavelength and polarization selective photon sieve for holographic applications[J].Nanophotonics,2021, 10 (18): 4543-4550.

[24] Bi Y, Huang L, Li X, et al.Magnetically controllable metasurface and its application[J].Frontiers of Optoelectronics,2021, 14 (2): 154-169.

2020

[1] Zhou H, Wang Y, Li X, et al.Switchable active phase modulation and holography encryption based on hybrid metasurfaces[J].Nanophotonics,2020, 9 (4): 905-912.

[2] Zhou H, Sain B, Wang Y, et al.Polarization-Encrypted Orbital Angular Momentum Multiplexed Metasurface Holography[J].ACS Nano,2020, 14 (5): 5553-5559.

[3] Zhou H, Huang L, Li X, et al.All-dielectric bifocal isotropic metalens for a single-shot hologram generation device[J].Optics Express,2020, 28 (15): 21549-21559.

[4] Zheng H, Chen B, Shi L, et al.Stable blue-emissive aluminum acetylacetonate nanocrystals with high quantum yield of over 80% and embedded in polymer matrix for remote UV-pumped white light-emitting diodes[J].Nanophotonics,2020, 9 (6): 1509-1518.

[5] Zhao R, Huang L, Wang Y.Recent advances in multi-dimensional metasurfaces holographic technologies[J].PhotoniX,2020, 1 (1).

[6] Zhang F, Zhao Z, Chen B, et al.Strongly Emissive Lead-Free 0D Cs3Cu2I5 Perovskites Synthesized by a Room Temperature Solvent Evaporation Crystallization for Down-Conversion Light-Emitting Devices and Fluorescent Inks[J].Advanced Optical Materials,2020, 8 (8).

[7] Xu Z, Huang L, Li X, et al.Quantitatively Correlated Amplitude Holography Based on Photon Sieves[J].Advanced Optical Materials,2020, 8 (2).

[8] Xie L, Chen B, Zhang F, et al.Highly luminescent and stable lead-free cesium copper halide perovskite powders for UV-pumped phosphor-converted light-emitting diodes[J].Photonics Research,2020, 8 (6): 768-775.

[9] Wei Q, Huang L, Zentgraf T, et al.Optical wavefront shaping based on functional metasurfaces[J].Nanophotonics,2020, 9 (5): 987-1002.

[10] Wang Z, Li X, Jiang L, et al.High-quality micropattern printing by interlacing-pattern holographic femtosecond pulses[J].Nanophotonics,2020, 9 (9): 2895-2904.

[11] Spreyer F, Zhao R, Huang L, et al.Second harmonic imaging of plasmonic Pancharatnam-Berry phase metasurfaces coupled to monolayers of WS2[J].Nanophotonics,2020, 9 (2): 351-360.

[12] Liu B, Sain B, Reineke B, et al.Nonlinear Wavefront Control by Geometric-Phase Dielectric Metasurfaces: Influence of Mode Field and Rotational Symmetry[J].Advanced Optical Materials,2020, 8 (9).

[13] Li X, Xu Z, Jiang L, et al.Creating a three-dimensional surface with antireflective properties by using femtosecond-laser Bessel-beam-assisted thermal oxidation[J].Optics Letters,2020, 45 (11): 2989-2992.

[14] Li B, Li X, Zhao R, et al.Polarization Multiplexing Terahertz Metasurfaces through Spatial Femtosecond Laser-Shaping Fabrication[J].Advanced Optical Materials,2020, 8 (12).

[15] Jiang Q, Cao L, Huang L, et al.A complex-amplitude hologram using an ultra-thin dielectric metasurface[J].Nanoscale,2020, 12 (47): 24162-24168.

[16] Feng Y, Leiderer P, Zhao R, et al.Giant polarization anisotropic optical response from anodic aluminum oxide templates embedded with plasmonic metamaterials[J].Optics Express,2020, 28 (20): 29513-29528.

[17] Ding F, Chang B, Wei Q, et al.Versatile Polarization Generation and Manipulation Using Dielectric Metasurfaces[J].Laser and Photonics Reviews,2020, 14 (11).

2019

[1] Zhou H, Huang L, Wang Y.Deep learning algorithm and its application in optics[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (12).

[2] Xu Z, Jiang L, Li X, et al.Flash Ablation of Tunable and Deep-Subwavelength Nanogap by Using a Spatially Modulated Femtosecond Laser Pulse for Plasmonic Application[J].ACS Applied Nano Materials,2019, 2 (8): 4933-4941.

[3] Wei Q, Sain B, Wang Y, et al.Simultaneous Spectral and Spatial Modulation for Color Printing and Holography Using All-Dielectric Metasurfaces[J].Nano Letters,2019, 19 (12): 8964-8971.

[4] Tan H, Deng J, Zhao R, et al.A Free-Space Orbital Angular Momentum Multiplexing Communication System Based on a Metasurface[J].Laser and Photonics Reviews,2019, 13 (6).

[5] Sun L, Bai B, Wang J, et al.Probing the Photonic Spin–Orbit Interactions in the Near Field of Nanostructures[J].Advanced Functional Materials,2019, 29 (32).

[6] Lin Z, Li X, Zhao R, et al.High-efficiency Bessel beam array generation by Huygens metasurfaces[J].Nanophotonics,2019, 8 (6): 1079-1085.

[7] Lin Z, Huang L, Zhao R, et al.Dynamic control of mode modulation and spatial multiplexing using hybrid metasurfaces[J].Optics Express,2019, 27 (13): 18740-18750.

[8] Lin Z, Huang L, Xu Z T, et al.Four-Wave Mixing Holographic Multiplexing Based on Nonlinear Metasurfaces[J].Advanced Optical Materials,2019, 7 (21).

[9] Li T, Wei Q, Reineke B, et al.Reconfigurable metasurface hologram by utilizing addressable dynamic pixels[J].Optics Express,2019, 27 (15): 21153-21162.

[10] Huang L, Zhao R, Sain B, et al. High-dimensional vectorial metasurface holography[C].International Conference on Metamaterials, Photonic Crystals and Plasmonics,2019: 742-743.

[11] Huang L, Wei Q, Wang Y.Development and applications of wavefront modulation technology based on new functional metasurfaces(Invited)[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (10).

[12] Huang L.Breaking the spatial reciprocity with Janus metamaterials[J].Light: Science and Applications,2019, 8 (1).

[13] Huang J, Jiang L, Li X, et al.Cylindrically Focused Nonablative Femtosecond Laser Processing of Long-Range Uniform Periodic Surface Structures with Tunable Diffraction Efficiency[J].Advanced Optical Materials,2019, 7 (20).

[14] Han N, Huang L, Lin Z, et al.Curved holography based on Ω-shaped conformal metasurfaces[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (7).

2018

[1] Zhao R, Sain B, Wei Q, et al.Multichannel vectorial holographic display and encryption[J].Light: Science and Applications,2018, 7 (1).

[2] Zhao R, Huang L, Tang C, et al.Nanoscale Polarization Manipulation and Encryption Based on Dielectric Metasurfaces[J].Advanced Optical Materials,2018, 6 (19).

[3] Song X, Huang L, Tang C, et al.Selective Diffraction with Complex Amplitude Modulation by Dielectric Metasurfaces[J].Advanced Optical Materials,2018, 6 (4).

[4] Song X, Huang L, Sun L, et al.Near-field plasmonic beam engineering with complex amplitude modulation based on metasurface[J].Applied Physics Letters,2018, 112 (7).

[5] Li B, Jiang L, Li X, et al.Flexible Gray-Scale Surface Patterning Through Spatiotemporal-Interference-Based Femtosecond Laser Shaping[J].Advanced Optical Materials,2018, 6 (24).

[6] Huang L, Zhang S, Zentgraf T.Metasurface holography: From fundamentals to applications[J].Nanophotonics,2018, 7 (6): 1169-1190.

[7] Han N, Huang L, Wang Y.Illusion and cloaking using dielectric conformal metasurfaces[J].Optics Express,2018, 26 (24): 31625-31635.

2017

[1] Zhang T, Huang L, Li X, et al.High-efficiency broadband polarization converter based on ω-shaped metasurface[J].Journal of Physics D: Applied Physics,2017, 50 (45).

[2] Yin X, Steinle T, Huang L, et al.Beam switching and bifocal zoom lensing using active plasmonic metasurfaces[J].Light: Science and Applications,2017, 6 (7).

[3] Wei Q, Huang L, Li X, et al.Broadband Multiplane Holography Based on Plasmonic Metasurface[J].Advanced Optical Materials,2017, 5 (18).

[4] Wang A, Jiang L, Li X, et al.Nanoscale material redistribution induced by spatially modulated femtosecond laser pulses for flexible high-efficiency surface patterning[J].Optics Express,2017, 25 (25): 31431-31442.

[5] Li T Y, Huang L L, Wang Y T.The principle and research progress of metasurfaces[J].Chinese Optics,2017, 10 (5): 523-540.

[6] Li T, Huang L, Liu J, et al.Tunable wave plate based on active plasmonic metasurfaces[J].Optics Express,2017, 25 (4): 4216-4226.

[7] Huang L, Zheng J, Huang L, et al.Controlled Synthesis and Flexible Self-Assembly of Monodisperse Au@Semiconductor Core/Shell Hetero-Nanocrystals into Diverse Superstructures[J].Chemistry of Materials,2017, 29 (5): 2355-2363.

[8] Huang L, Song X, Reineke B, et al.Volumetric Generation of Optical Vortices with Metasurfaces[J].ACS Photonics,2017, 4 (2): 338-346.


  • Copyright © 2021- 北京理工大学微纳光子与先进显示实验室   All Rights Reserved.网站地图