[1] [1] Yavuz O, Kesim D K, Turnali A, et al. Breaking crosstalk limits to dynamic holography using orthogonality of high-dimensional random vectors[J]. Nature Photonics,2019,13（4）:251—256.

[2] [2] Li X, Ren H, Chen X, et al. A thermally photoreduced graphene oxides for three-dimensional holographic images[J]. Nature Communications,2015,6（1）:6984.

[3] [3] Yu H, Lee K, Park J, et al. Ultrahigh-definition dynamic 3D holographic display by active control of volume speckle fields[J]. Nature Photonics,2017,11（3）:186—192.

[4] [4] Li J, Smithwick Q, Chu D P. Scalable coarse integral holographic video display with integrated spatial image tiling[J]. Optics Express,2020,28（7）:9899—9912.

[5] [5] Liu J S, Collings N, Crossland W A, et al. Simulation and experiment on generation of an arbitrary array of intense spots by a tiled hologram[J]. Journal of Optics,2010,12（8）:085402.

[6] [6] Tsang P W M. Computer-generated phase-only holograms for 3D displays: a matlab approach[M]. Cambridge: Cambridge University Press,2021.

[7] [7] Chang C, Xia J, Yang L, et al. Speckle-suppressed phase-only holographic three-dimensional display based on double-constraint Gerchberg-Saxton algorithm[J]. Applied Optics,2015,54（23）:6994—7001.

[8] [8] Wu Y, Wang J, Chen C, et al. Adaptive weighted Gerchberg-Saxton algorithm for generation of phase-only hologram with artifacts suppression[J]. Optics Express,2021,29（2）:1412—1427.

[9] [9] Liu K, He Z, Cao L. Double amplitude freedom Gerchberg-Saxton algorithm for generation of phase-only hologram with speckle suppression[J]. Applied Physics Letters,2022,120（6）:061103.

[10] [10] Chen C, Lee B, Li N N, et al. Multi-depth hologram generation using stochastic gradient descent algorithm with complex loss function[J]. Optics Express,2021,29（10）:15089—15103.

[11] [11] Peng Y, Choi S, Kim J, et al. Speckle-free holography with partially coherent light sources and camera-in-the-loop calibration[J]. Science Advances,2021,7:eabg5040.

[12] [12] Liu S, Takaki Y. Gradient descent based algorithm of generating phase-only holograms of 3D images[J]. Optics Express,2022,30（10）:17416—17436.

[13] [13] Zea A V, Ramirez J F B, Torroba R. Optimized random phase only holograms[J]. Optics Letters,2018,43（4）:731—734.

[14] [14] Shi L, Li B, Kim C, et al. Towards real-time photorealistic 3D holography with deep neural networks[J]. Nature,2021,591:234—239.

[15] [15] Shi L, Li B, Matusik W. End-to-end learning of 3D phase-only holograms for holographic display[J]. Light: Science & Applications,2022,11:247.

[16] [16] Hu C C, Yang G L, Xie H Y. 3D information transmission of a computer-generated hologram using a quantum compensation hybrid neural network[J]. Optics Express,2024,32（13）:23736—23749.

[17] [17] Tsang P W M, Poon T C. Novel method for converting digital Fresnel hologram to phase-only hologram based on bidirectional error diffusion[J]. Optics Express,2013,21（20）:23680—23686.

[18] [18] Tsang P, Chow Y T, Poon T C. Generation of phase-only Fresnel hologram based on down-sampling[J]. Optics Express,2014,22（21）:25208—25214.

[19] [19] Hsueh C K, Sawchuk A A. Computer-generated double-phase holograms[J]. Applied Optics,1978,17（24）:3874—3883.

[20] [20] Mendoza-Yero O, Mnguez-Vega G, Lancis J. Encoding complex fields by using a phase-only optical element[J]. Optics Letters,2014,39（7）:1740—1743.

[21] [21] Sui X, He Z, Zhang H, et al. Spatiotemporal double-phase hologram for complex-amplitude holographic displays[J]. Chinese Optics Letters,2020,18（10）:100901.

[22] [22] Sui X, He Z, Jin G, et al. Band-limited double-phase method for enhancing image sharpness in complex modulated computer-generated holograms[J]. Optics Express,2021,29（2）:2597—2612.

[23] [23] Sui X, He Z, Jin G, et al. Spectral-envelope modulated double-phase method for computer-generated holography[J].Optics Express,2022,30（17）:30552—30563.

[24] [24] Shimobaba T, Wang F, Starobrat J, et al. Comparison of double-phase hologram and binary amplitude encoding: holographic projection and vortex beam generation[J]. Applied Optics,2023,62（28）:1—10.