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    Journals >Advanced Photonics Nexus >Volume 3 >Issue 1 >Page 016005 > Article
    • Advanced Photonics Nexus
    • Vol. 3, Issue 1, 016005 (2024)
    Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing
    Tian Xia1, Zhenwei Xie1、*, and Xiaocong Yuan1、2、*
    Author Affiliations
  • 1Shenzhen University, Institute of Microscale Optoelectronics, Nanophotonics Research Centre, State Key Laboratory of Radio Frequency Heterogeneous Integration, Shenzhen, China
  • 2Research Institute of Intelligent Sensing, Research Center for Humanoid Sensing, Zhejiang Lab, Hangzhou, China
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    DOI: 10.1117/1.APN.3.1.016005 Cite this Article Set citation alerts
    Tian Xia, Zhenwei Xie, Xiaocong Yuan. Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing[J]. Advanced Photonics Nexus, 2024, 3(1): 016005 Copy Citation Text show less
    References

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    [2] K. T. P. Lim et al. Holographic colour prints for enhanced optical security by combined phase and amplitude control. Nat. Commun., 10, 25(2019).

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    [5] S. M. Kamali et al. Angle-multiplexed metasurfaces: encoding independent wavefronts in a single metasurface under different illumination angles. Phys. Rev. X, 7, 041056(2017).

    [6] J. P. Balthasar Mueller et al. Metasurface polarization optics: independent phase control of arbitrary orthogonal states of polarization. Phys. Rev. Lett., 118, 113901(2017).

    [7] X. Li et al. Athermally photoreduced graphene oxides for three-dimensional holographic images. Nat. Commun., 6, 6984(2015).

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    [9] Q. Ma et al. Information metasurfaces and intelligent metasurfaces. Photonics Insights, 1, R01(2022).

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

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

    [12] H. Ren et al. Metasurface orbital angular momentum holography. Nat. Commun., 10, 2986(2019).

    [13] X. Fang, H. Ren, M. Gu. Orbital angular momentum holography for high-security encryption. Nat. Photonics, 14, 102-108(2020).

    [14] H. Ren et al. Complex-amplitude metasurface-based orbital angular momentum holography in momentum space. Nat. Nanotechnol., 15, 948-955(2020).

    [15] Q. Cao et al. Propagation of transverse photonic orbital angular momentum through few-mode fiber. Adv. Photonics, 5, 036002(2023).

    [16] R. Zhao, L. Huang, Y. Wang. Recent advances in multi-dimensional metasurfaces holographic technologies. PhotoniX, 1, 20(2020).

    [17] X. Fang et al. High-dimensional orbital angular momentum multiplexing nonlinear holography. Adv. Photonics, 3, 015001(2021).

    [18] H. Yang et al. Angular momentum holography via a minimalist metasurface for optical nested encryption. Light Sci. Appl., 12, 79(2023).

    [19] H. Zhou et al. Polarization-encrypted orbital angular momentum multiplexed metasurface holography. ACS Nano, 14, 5553-5559(2020).

    [20] P. Cheng, S. Huang, C. Yan. Ellipticity-encrypted orbital angular momentum multiplexed holography. J. Opt. Soc. Am. A, 38, 1875-1883(2021).

    [21] G. Zhu et al. Ultra-dense perfect optical orbital angular momentum multiplexed holography. Opt. Express, 29, 28452-28460(2021).

    [22] F. Wang et al. Angular multiplexation of partial helical phase modes in orbital angular momentum holography. Opt. Express, 30, 11110-11119(2022).

    [23] F. Wang et al. Enhancing the information capacity with modulated orbital angular momentum holography. IEEE Photonics J., 14, 5212905(2022).

    [24] F. Li et al. Multiple-dimensional multiplexed holography based on modulated chiro-optical fields. Opt. Express, 30, 41567-41579(2022).

    [25] F. Li et al. Multiple-image encryption using phase jump gradient factors -based OAM multiplexing holography. Opt. Lasers Eng., 160, 107303(2023).

    [26] Z. Huang et al. Orbital angular momentum deep multiplexing holography via an optical diffractive neural network. Opt. Express, 30, 5569-5584(2022).

    [27] F. Feng et al. Deep learning-enabled orbital angular momentum-based information encryption transmission. ACS Photonics, 9, 820-829(2022).

    [28] N. Zhang et al. Multiparameter encrypted orbital angular momentum multiplexed holography based on multiramp helicoconical beams. Adv. Photonics Nexus, 2, 036013(2023).

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    Tian Xia, Zhenwei Xie, Xiaocong Yuan. Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing[J]. Advanced Photonics Nexus, 2024, 3(1): 016005
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