[1] Waks E, Inoue K, Santori C, Fattal D, Vuckovic J, Solomon GS, et al. Quantum cryptography with a photon turnstile. Nature. 2002;420:762.

[2] Yin J, Li YH, Liao SK, Yang M, Cao Y, Zhang L, et al. Entanglement-based secure quantum cryptography over 1,120 kilometres. Nature. 2020;582:501–5.

[3] Li J, Zhang Y, Chen X, Xiang Y. Secure attribute-based data sharing for resource-limited users in cloud computing. Comput Secur. 2018;72:1–12.

[4] Li J, Shi Y, Zhang Y. Searchable ciphertext-policy attributebased encryption with revocation in cloud storage. Int J Commun Syst. 2017;30:e2942.

[5] Sugier J. Cracking the DES Cipher with cost-optimized FPGA devices. Adv Intell Syst Comput, 2020; 987.

[6] Wang C, Wang QD, Hong CL, Hu QY, Pei Z. Quantum Annealing Public Key Cryptographic Attack Algorithm based on D-Wave advantage. Chin J Comput. 2024;47:1030–44. .

[7] Yu N, Genevet P, Kats MA, Aieta F, Tetienne JP, Capasso F, et al. Light propagation with phase discontinuities: generalized laws of reflection and refraction. Science. 2011;334:333–7.

[8] Yu NF, Capasso F. Flat optics with designer metasurfaces. Nat Mater. 2014;13:139–50.

[9] Dorrah AH, Capasso F. Tunable structured light with flat optics. Science. 2022;376: eabi6860.

[10] Song Q, Oden M, Pérez JZ, Kanté B, Genevet P. Plasmonic topological metasurface by encircling an exceptional point. Science. 2021;373:1133–7.

[11] Li L, Cui TJ, Ji W, Liu S, Ding J, Wan X, et al. Electromagnetic reprogrammable coding-metasurface holograms. Nat Commun. 2017;8:197.

[12] Cui TJ, Qi MQ, Wan X, Zhao J, Cheng Q. Coding metamaterials, digital metamaterials and programmable metamaterials. Light Sci Appl. 2014;3:e218.

[13] Yang Y, Jing L, Zheng B, Hao R, Yin W, Li E, et al. Full-polarization 3D metasurface cloak with preserved amplitude and phase. Adv Mater. 2016;28:6866–71.

[14] Chu H, Li Q, Liu B, Luo J, Sun S, Hang ZH, et al. A hybrid invisibility cloak based on integration of transparent metasurfaces and zero-index materials. Light: Sci Appl. 2018;7:50.

[15] Qian C, Zheng B, Shen Y, Jing L, Li E, Shen L, et al. Deep-learning-enabled self-adaptive microwave cloak without human intervention. Nat Photonics. 2020;14:383–90.

[16] Li YL, Li NN, Wang D, Chu F, Lee SD, Zheng YW, et al. Tunable liquid crystal grating based holographic 3D display system with wide viewing angle and large size. Light Sci Appl. 2022;11:188.

[17] Ren H, Fang X, Jang J, Burger J, Rho J, Maier SA. Metasurface orbital angular momentum holography. Nat Commun. 2019;10:2986.

[18] Ren H, Shao W, Li Y, Salim F, Gu M. Three-dimensional vectorial holography based on machine learning inverse design. Sci Adv. 2020;6: eaaz4261.

[19] Sun S, Ma HF, Gou Y, Zhang TY, Wu LW, Cui TJ. Spin- and space-multiplexing metasurface for independent phase controls of quadruplex polarization channels. Adv Opt Mater. 2022;11:2202275.

[20] Gou Y, Ma HF, Sun S, Zhang TY, Wu LW, Wang ZX, et al. Non-interleaved four-channel metasurfaces for simultaneous printing and holographic imaging. Small Struct. 2023;4:2300054.

[21] Karimi E, Schulz SA, Leon ID, Qassim H, Upham J, Boyd RW. Generating optical orbital angular momentum at visible wavelengths using a plasmonic metasurface. Light Sci Appl. 2014;3:e167.

[22] Ren H, Fang X, Jang J, Burger J, Rho J, Maier SA. Complex-amplitude metasurface-based orbital angular momentum holography in momentum space. Nat Nanotechnol. 2020;15:948–55.

[23] Chen WT, Zhu AY, Sanjeev V, Khorasaninejad M, Shi Zhu, Lee E, et al. A broadband achromatic metalens for focusing and imaging in the visible. Nat Nanotechnol. 2018;13:220–6.

[24] Shalaginov MY, An S, Zhang Y, Yang F, Su P, Liberman V, et al. Reconfigurable all-dielectric metalens with diffraction-limited performance. Nat Commun. 2021;12:1225.

[25] Wang S, Wu PC, Su VC, Lai YC, Chu CH, Chen JW, et al. Broadband achromatic optical metasurface devices. Nat Commun. 2017;8:187.

[26] Cai G, Li Y, Zhang Y, Jiang X, Chen Y, Qu G, et al. Compact angle-resolved metasurface spectrometer. Nat Mater. 2024;23:71–8.

[27] Ding X, Zhao Z, Xie P, Cai D, Meng F, Wang C, et al. Metasurface-based optical logic operators driven by diffractive neural networks. Adv Mater. 2024;36:2308993.

[28] Lim KT, Liu H, Liu Y, Yang JK. Holographic colour prints for enhanced optical security by combined phase and amplitude control. Nat Commun. 2019;10:25.

[29] Guo X, Zhong J, Li B, Qi S, Li Y, Li P, et al. Full-color holographic display and encryption with full-polarization degree of freedom. Adv Mater. 2022;34:2103192.

[30] Zang X, Dong F, Yue F, Zhang C, Xu L, Song Z, et al. Polarization encoded color image embedded in a dielectric metasurface. Adv Mater. 2018;30: 1707499.

[31] Chen Y, Yang X, Gao J. 3D Janus plasmonic helical nanoapertures for polarization-encrypted data storage. Light Sci Appl. 2019;8:45.

[32] Fan Q, Liu M, Zhang C, Zhu W, Wang Y, Lin P, et al. Independent amplitude control of arbitrary orthogonal states of polarization via dielectric metasurfaces. Phys Rev Lett. 2020;125: 267402.

[33] Zhao R, Huang L, Tang C, Li J, Li X, Wang Y, et al. Nanoscale polarization manipulation and encryption based on dielectric metasurfaces. Adv Opt Mater. 2018;6:1800490.

[34] Zhao R, Sain B, Wei Q, Tang C, Li X, Weiss T, et al. Multichannel Vectorial holographic display and encryption. Light Sci Appl. 2018;7:95.

[35] Deng ZL, Tu QA, Wang Y, Wang ZQ, Shi T, Feng Z, et al. Vectorial compound metapixels for arbitrary nonorthogonal polarization steganography. Adv Mater. 2021;33:2103472.

[36] Ren R, Li Z, Deng L, Shan X, Dai Q, Guan Z, et al. Non-orthogonal polarization multiplexed metasurfaces for tri-channel polychromatic image displays and information encryption. Nanophotonics. 2021;10:2903–14.

[37] Liu HC, Yang B, Guo Q, Shi J, Guan C, Zheng G, et al. Single-pixel computational ghost imaging with helicity dependent metasurface hologram. Sci Adv. 2017;3: e1701477.

[38] Li X, Zhao R, Wei Q, Geng G, Li J, Zhang S, et al. Code division multiplexing inspired dynamic metasurface holography. Adv Fun Mater. 2021;31:2103326.

[39] Georgi P, Wei Q, Sain B, Schlickriede C, Wang Y, Huang L, et al. Optical secret sharing with cascaded metasurface holography. Sci Adv. 2021;7: abf9718.

[40] Zhang F, Guo Y, Pu M, Chen L, Xu M, Liao M, et al. Meta-optics empowered vector visual cryptography for high security and rapid decryption. Nat Commun. 2023;14:1946.

[41] Guo X, Li P, Zhong J, Wen D, Wei B, Liu S, et al. Stokes meta-hologram toward optical cryptography. Nat Commun. 2022;13:6687.

[42] Li Z, Kong X, Zhang J, Shao L, Zhang D, Liu J, et al. Cryptography metasurface for one-time-pad encryption and massive data storage. Laser Photonics Rev. 2022;16:2200113.

[43] Zheng P, Dai P, Li Z, Ye Z, Xiong J, Liu HC, et al. Metasurface-based key for computational imaging encryption. Sci Adv. 2021;7:eabg0363.

[44] Zheng Y, Chen K, Xu Z, Zhang N, Wang J, Zhao J, et al. Metasurface-assisted wireless communication with physical level information encryption. Adv Sci. 2022;9:2204558.

[45] Wei H, Zhao H, Chen Y, Wang Z, Cui TJ, Li L. Physical-level secure wireless communication using random-signal-excited reprogrammable metasurface. Appl Phys Lett. 2023;122: 051704.

[46] Wang HL, Ma HF, Zhang YK, Zhang TY, Sun S, Chen YT, et al. Multichannel highly secure wireless communication system with information camouflage capability. Sci Adv. 2024;10: adk7557.

[47] Zulkifli MZWM, Mohd ZW. Attack on cryptography. Comput Secur. 2008;12:33–45.

[48] Song Y, Ye D. Replay attack detection and mitigation for cyber–physical systems via RADIR algorithm with encryption scheduling. Neural Comput. 2023;558:126698.

[49] Wang Z, Ding X, Zhang K, Ratni B, Burokur SN, Gu X, et al. Huygens metasurface holograms with the modulation of focal energy distribution. Adv Opt Mater. 2018;6:1800121.

[50] Zhang F, Pu M, Li X, Gao P, Ma X, Luo J, et al. All-dielectric metasurfaces for simultaneous giant circular asymmetric transmission and wavefront shaping based on asymmetric photonic spin–orbit interactions. Adv Fun Mater. 2017;27:1704295.

[51] Bao Y, Yu Y, Xu H, Guo C, Li J, Sun S, et al. Full-colour nanoprint-hologram synchronous metasurface with arbitrary hue-saturation-brightness control. Light Sci Appl. 2019;8:95.