[1] Reinsel D, Gantz J, Rydning J.Data age 2025: The evolution of data to life-critical.An IDC White Paper, April 2017.
[2] D D Gabor. A new microscopic principle. Nature, 1948, 161: 777-778.
[3] P J van Heerden. Theory of optical information storage in solids. Appl Opt, 1963, 2: 393-400.
[4] W C Stewart, R S Mezrich, L S Cosentino. An experimental read-write holographic memory. RCA Rev, 1973, 34: 3-44.
[5] J J Amodei, D L Staebler. Holographic pattern fixing in electro-optic crystals. Appl Phys Lett, 1971, 18: 540-542.
[6] N Nishida, M Sakaguchi, F Saito. Holographic coding plate:a new application of holographic memory. Appl Opt, 1973, 12: 1663-1674.
[7] Y Tsunoda, K Tatsuno, K Kataoka, Y Takeda. Holographic video disk:an alternative approach to optical video disks. Appl Opt, 1976, 15: 1398-1403.
[8] W C Strehlow, R L Dennison, J R Packard. Holographic data store. J Opt Soc Am, 1974, 64: 543-544.
[9] F H Mok, M C Tackitt, H M Stoll. Storage of 500 high-resolution holograms in a LiNbO3 crystal. Opt Lett, 1991, 16: 605-607.
[10] F H Mok. Angle-multiplexed storage of 5000 holograms in lithium niobate. Opt Lett, 1993, 18: 915-917.
[11] J F Heanue, M C Bashaw, L Hesselink. Volume holographic storage and retrieval of digital data. Science, 1994, 265: 749-752.
[12] M P Bernal, H Coufal, R K Grygier, J A Hoffnagle, C M Jefferson, et al.. A precision tester for studies of holographic optical storage materials and recording physics. Appl Opt, 1996, 35: 2360-2374.
[13] R M Shelby, J A Hoffnagle, G W Burr, C M Jefferson, M P Bernal, et al.. Pixel-matched holographic data storage with megabit pages. Opt Lett, 1997, 22: 1509-1511.
[14] J H Hong, I C McMichael, TY Chang, W R Christian, E G Paek. Volume holographic memory systems:techniques and architectures. Opt Eng, 1995, 34: 2193-2203.
[15] Optical Data Storage.Conference Digest 164-166(IEEE, 2000);http://doi.org/10.1109/ODS.2000.848014.]]>
[16] D A Waldman, C J Butler, D H Raguin. CROP holographic storage media for optical data storage greater than 100 bits/μm2. Proc SPIE, 2003, 5216: 10-25.
[17] H Horimai, X D Tan, J Li. Collinear holography. Appl Opt, 2005, 44: 2575-2579.
[18] H Horimai, X D Tan. Advanced collinear holography. Opt Rev, 2005, 12: 90-92.
[19] H Horimai, X D Tan. Collinear technology for a holographic versatile disk. Appl Opt, 2006, 45: 910-914.
[20] H Horimai, X D Tan. Holographic information storage system:today and future. IEEE Trans Magn, 2007, 43: 943-947.
[21] H F Shih. Integrated optical unit design for the collinear holographic storage system. IEEE Trans Magn, 2007, 43: 948-950.
[22] W L Wilson, K R Curtis, K E Anderson, M C Tackitt, A J Hill, et al.. Realization of high-performance holographic data storage:The InPhase technologies demonstration platform. Proc SPIE, 5216, 63350: 63350G.
[23] L Dhar, K Curtis, T Fäcke. Holographic data storage:coming of age. Nat Photonics, 2008, 2: 403-405.
[24] Conference on Lasers and Electro-Optics 29-37(IEEE, 2004); http://doi.org/10.1117/12.564632.]]>
[25] M Schnoes, B Ihas, L Dhar, D Michaels, S Setthachayanon, et al.. Photopolymer use for holographic data storage. Proc SPIE, 2003, 4988: 68-76.
[26] C Denz, G Pauliat, G Roosen, T Tschudi. Volume hologram multiplexing using a deterministic phase encoding method. Opt Commun, 1991, 85: 171-176.
[27] Summaries of Papers Presented at the Conference on Lasers and Electro-Optics 142-143(IEEE, 1996); https://doi.org/10.1364/OL.21.001780.]]>
[28] Y H Kang, K H Kim, B Lee. Volume hologram scheme using optical fiber for spatial multiplexing. Opt Lett, 1997, 22: 739-741.
[29] X D Tan, O Matoba, T Shimura, K Kuroda. Improvement in holographic storage capacity by use of double-random phase encryption. Appl Opt, 2001, 40: 4721-4727.
[30] D Psaltis, M Levene, A Pu, G Barbastathis, K Curtis. Holographic storage using shift multiplexing. Opt Lett, 1995, 20: 782-784.
[31] H Horimai, X D Tan. Holographic versatile disc system. Proc SPIE, 2005, 5939: 593901.
[32] J H Li, L C Cao, H R Gu, X D Tan, Q S He, et al.. Orthogonal-reference-pattern-modulated shift multiplexing for collinear holographic data storage. Opt Lett, 2012, 37: 936-938.
[33] H Horimai, J Li. A novel collinear optical setup for holographic data storage system. Proc SPIE, 2004, 5380: 297-303.
[34] X Lin, J Ke, A A Wu, X Xiao, X D Tan. An effective phase modulation in the collinear holographic storage. Proc SPIE, 2014, 9006: 900607.
[35] M Z He, L C Cao, Q F Tan, Q S He, G F Jin. Novel phase detection method for a holographic data storage system using two interferograms. J Opt A Pure Appl Opt, 2009, 11: 065705.
[36] J P Liu, H Horimai, X Lin, Y Huang, X D Tan. Phase modulated high density collinear holographic data storage system with phase-retrieval reference beam locking and orthogonal reference encoding. Opt Express, 2018, 26: 3828-3838.
[37] X Lin, Y Huang, T Shimura, R Fujimura, Y Tanaka, et al.. Fast non-interferometric iterative phase retrieval for holographic data storage. Opt Express, 2017, 25: 30905-30915.
[38] R W Gerchberg, W Saxton. A practical algorithm for the determination of phase from image and diffraction plane pictures. Optik, 1972, 35: 237-246.
[39] J R Fienup. Phase retrieval algorithms:a comparison. Appl Opt, 1982, 21: 2758-2769.
[40] J R Fienup, C C Wackerman. Phase-retrieval stagnation problems and solutions. J Opt Soc Am A, 1986, 3: 1897-1907.
[41] L S Sui, H W Lu, X J Ning, Y H Wang. Asymmetric double-image encryption method by using iterative phase retrieval algorithm in fractional Fourier transform domain. Opt Eng, 2014, 53: 026108.
[42] P Gao, G Pedrini, W Osten. Phase retrieval with resolution enhancement by using structured illumination. Opt Lett, 2013, 38: 5204-5207.
[43] Y Z Li, K Kreske, J Rosen. Security and encryption optical systems based on a correlator with significant output images. Appl Opt, 2000, 39: 5295-5301.
[44] M Walde, A Jost, K Wicker, R Heintzmann. Engineering an achromatic Bessel beam using a phase-only spatial light modulator and an iterative Fourier transformation algorithm. Opt Commun, 2017, 383: 64-68.
[45] X Lin, J Y Hao, M J Zheng, T G Dai, H Li, et al.. Optical holographic data storage—The time for new development. Opto-Electron Eng, 2019, 46: 180642.