[1] Yoon G, Lee D, Nam K T et al. Crypto-display in dual-mode metasurfaces by simultaneous control of phase and spectral responses[J]. ACS Nano, 12, 6421-6428(2018).

[2] Jang J, Jeong H, Hu G W et al. Tunable metasurfaces: Kerker-conditioned dynamic cryptographic nanoprints[J]. Advanced Optical Materials, 7, 1970016(2019).

[3] Luo X H, Hu Y Q, Li X et al. Integrated metasurfaces with microprints and helicity-multiplexed holograms for real-time optical encryption[J]. Advanced Optical Materials, 8, 1902020(2020).

[4] Khorasaninejad M, Chen W T, Devlin R C et al. Metalenses at visible wavelengths: diffraction-limited focusing and subwavelength resolution imaging[J]. Science, 352, 1190-1194(2016).

[5] Chen W T, Zhu A Y, Sanjeev V et al. A broadband achromatic metalens for focusing and imaging in the visible[J]. Nature Nanotechnology, 13, 220-226(2018).

[6] Yao J, Lin R, Chen M K et al. Integrated-resonant metadevices: a review[J]. Advanced Photonics, 5, 024001(2023).

[7] Huang L L, Chen X Z, Mühlenbernd H et al. Three-dimensional optical holography using a plasmonic metasurface[J]. Nature Communications, 4, 2808(2013).

[8] Zheng G X, Mühlenbernd H, Kenney M et al. Metasurface holograms reaching 80% efficiency[J]. Nature Nanotechnology, 10, 308-312(2015).

[9] Ding X M, Wang Z C, Hu G W et al. Metasurface holographic image projection based on mathematical properties of Fourier transform[J]. PhotoniX, 1, 16(2020).

[10] Wen D D, Cadusch J J, Meng J J et al. Light field on a chip: metasurface-based multicolor holograms[J]. Advanced Photonics, 3, 024001(2021).

[11] Kim J, Seong J, Yang Y et al. Tunable metasurfaces towards versatile metalenses and metaholograms: a review[J]. Advanced Photonics, 4, 024001(2022).

[12] Wang L, Kruk S, Koshelev K et al. Nonlinear wavefront control with all-dielectric metasurfaces[J]. Nano Letters, 18, 3978-3984(2018).

[13] Reineke B, Sain B, Zhao R Z et al. Silicon metasurfaces for third harmonic geometric phase manipulation and multiplexed holography[J]. Nano Letters, 19, 6585-6591(2019).

[14] Yang G H, Li Z X, Kang Q L et al. Enhanced magnetic Lorentz force second harmonic generation originating from a double-resonances plasmonic metasurface[J]. Journal of Physics D: Applied Physics, 54, 175110(2021).

[15] di Leonardo R, Ianni F, Ruocco G. Computer generation of optimal holograms for optical trap arrays[J]. Optics Express, 15, 1913-1922(2007).

[16] Mu Y H, Zheng M Y, Qi J R et al. A large field-of-view metasurface for complex-amplitude hologram breaking numerical aperture limitation[J]. Nanophotonics, 9, 4749-4759(2020).

[17] Zhao R Z, Huang L L, Wang Y T. Recent advances in multi-dimensional metasurfaces holographic technologies[J]. PhotoniX, 1, 1-24(2020).

[18] Zang X F, Dong F L, Yue F Y et al. Polarization encoded color image embedded in a dielectric metasurface[J]. Advanced Materials, 30, 1707499(2018).

[19] Deng L G, Deng J A, Guan Z Q et al. Malus-metasurface-assisted polarization multiplexing[J]. Light: Science & Applications, 9, 101(2020).

[20] Ren H R, Shao W, Li Y et al. Three-dimensional vectorial holography based on machine learning inverse design[J]. Science Advances, 6, eaaz4261(2020).

[21] Deng Z L, Deng J H, Zhuang X et al. Diatomic metasurface for vectorial holography[J]. Nano Letters, 18, 2885-2892(2018).

[22] Bao Y J, Ni J C, Qiu C W. A minimalist single-layer metasurface for arbitrary and full control of vector vortex beams[J]. Advanced Materials, 32, 1905659(2020).

[23] Lane S, Vagin S, Wang H et al. Wide-gamut lasing from a single organic chromophore[J]. Light: Science & Applications, 7, 101(2018).

[24] Yang H, He P, Ou K et al. Angular momentum holography via a minimalist metasurface for optical nested encryption[J]. Light: Science & Applications, 12, 79(2023).

[25] Zhou H Q, Sain B, Wang Y T et al. Polarization-encrypted orbital angular momentum multiplexed metasurface holography[J]. ACS Nano, 14, 5553-5559(2020).

[26] Zhao R Z, Xiao X F, Geng G Z et al. Polarization and holography recording in real- and k-space based on dielectric metasurface[J]. Advanced Functional Materials, 31, 2100406(2021).

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

[28] Yoon G, Jang J, Mun J et al. Metasurface zone plate for light manipulation in vectorial regime[J]. Communications Physics, 2, 156(2019).

[29] Hu Y F, Liu X, Jin M K et al. Dielectric metasurface zone plate for the generation of focusing vortex beams[J]. PhotoniX, 2, 10(2021).

[30] Yue Z, Li J T, Li J E et al. Terahertz metasurface zone plates with arbitrary polarizations to a fixed polarization conversion[J]. Opto-Electronic Science, 1, 210014(2022).

[31] Yuan Y Y, Sun S, Chen Y et al. A fully phase-modulated metasurface as an energy-controllable circular polarization router[J]. Advanced Science, 7, 2001437(2020).

[32] Ciattoni A, Crosignani B, di Porto P. Vectorial free-space optical propagation: a simple approach for generating all-order nonparaxial corrections[J]. Optics Communications, 177, 9-13(2000).