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Novel materials and devices bring new opportunities for holographic display

Peng Wei-Ting Liu Juan Li Xin Xue Gao-Lei Han Jian Hu Bin Wang Yong-Tian

Citation:

Novel materials and devices bring new opportunities for holographic display

Peng Wei-Ting, Liu Juan, Li Xin, Xue Gao-Lei, Han Jian, Hu Bin, Wang Yong-Tian
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(PLEASE TRANSLATE TO ENGLISH

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  • Three-dimentional (3D) display is one of the effective ways to obtain visual information feeling like actual environment. Since holographic technique can provide full depth information for human eyes, it is considered to be an ideal 3D display technique. However, it is limited by the features of display elements and devices, such as the time-space (time and space) bandwidth product, massive data processing speed and low image quality and so on. To improve the display quality, expand the time-space bandwidth product, improve the performance of the system, and overcome the limitation, optical elements and devices made from novel materials are introduced, such as metamaterials, metasurfaces and two-dimensional (2D) materials, and thus bringing new challenges and opportunities to holographic display. Meta-atom structure whose unit size is much less than wavelength is designed and fabricated specially, and it can realize the isotropical or anisotropical manipulation of the amplitude and phase of the light wave. By encoding the meta-atom structures into the hologram, the 2D or 3D images can be achieved. The development of a refreshable metamaterials and their applications in dynamic holographic display will be one of the most important topics in the future. Though the 2D or 3D holographic displays based on the elements and devices made from novel materials still have some basic problems, it is expected that they would bring new impetus and promising perspective for the future display market.
      Corresponding author: Liu Juan, juanliu@bit.edu.cn
    • Funds: Project supported by the National High Technology Research and Development Program of China (Grant No. 2015AA015905) and the National Natural Science Foundation of China (Grant Nos. 61575024, 61235002, 61420106014).
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  • [1]

    Cakmakci O, Rolland J 2006 J. Disp. Technol. 2 199

    [2]

    Li H, Zhang X, Shi G, Qu H, Wu Y, Zhang J 2013 Opt. Eng. 52 110901

    [3]

    Iizuka K 2006 Opt. Photon. News 7 42

    [4]

    Ma X, Liu J, Zhang Z, Li X, Jia J, Hu B, Wang Y 2015 Chin. Opt. Lett. 13 010901

    [5]

    Haln J, Kim H, Lim Y, Park G, Lee B 2008 Opt. Express 16 12372

    [6]

    Yaraş F, Kang H, Onural L 2011 Opt. Express 19 9147

    [7]

    Liu Y, Pang X, Jiang S, Dong J 2013 Opt. Express 21 12068

    [8]

    Han J, Liu J, Yao X, Wang Y 2015 Opt. Express 23 3534

    [9]

    Mukawa H, Akutsu K, Matsumura I, Nakano S, Yoshida T, Kuwahara M, Aiki K, Ogawa M 2008 SID Symposium Digest of Technical Papers 39 89

    [10]

    Zeng C, Gao H Y, Liu J C, Yu Y J, Yao Q X, Liu P, Zheng H D, Zeng Z X 2015 Acta Phys. Sin. 64 124215 (in Chinese)[曾超, 高洪跃, 刘吉成, 于瀛洁, 姚秋香, 刘攀, 郑华东, 曾震湘 2015 物理学报 64 124215]

    [11]

    Xia J, Chang C L, Lei W 2015 Acta Phys. Sin. 64 124213 (in Chinese)[夏军, 常琛亮, 雷威 2015 物理学报 64 124213]

    [12]

    Brown R, Stahl K, Wood R 2014 US Patent 8 903 207

    [13]

    Shi R, Liu J, Zhao H, Wu Z, Lu Y, Chen Y, Xie J, Wang Y 2012 Appl. Opt. 51 4703

    [14]

    Goodman J 2005 Introduction to Fourier Optics (Greenwood Village: Roberts Company Publishers) p184

    [15]

    Zhang N, Liu J, Han J, Li X, Yang F, Wang X, Hu B, Wang Y 2015 Appl. Opt. 54 3645

    [16]

    Li X, Chen C, Gao H, He Z, Xiong Y, Li H, Hu W, Ye Z, He G, Lu J, Su Y 2014 J. Disp. Technol. 10 438

    [17]

    Zhang H, Xie J, Wang Y 2009 Appl. Opt. 48 5834

    [18]

    de La Tocnaye J L D B, Dupont L 1997 Appl. Opt. 36 1730

    [19]

    Ozaki M, Kato J, Kawata S 2011 Science 332 218

    [20]

    Smith D R, Padilla W J, Vier D C, Nemat-Nasser S C, Schultz S 2000 Phys. Rev. Lett. 84 4184

    [21]

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    [22]

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    [23]

    Soukoulis C M, Wegener M 2011 Nat. Photon. 5 523

    [24]

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    [25]

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    [26]

    Ergin T, Stenger N, Brenner P, Pendry J B, Wegener M 2010 Science 328 337

    [27]

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    [28]

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    [32]

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    [33]

    Shalaev M, Sun J, Tsukernik A, Pandey A, Nikolskiy K, Litchinitser N M 2015 Nano Lett. 15 6261

    [34]

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    [35]

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    [36]

    Zeng J, Li L, Yang X, Gao J 2016 Nano Lett. 16 3101

    [37]

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    [46]

    Chen S, Zeuner F, Weismann M, Reineke B, Li G, Valev V, Cheah K, Panoiu N, Zentgraf T, Zhang S 2016 Adv. Mater. 28 2992

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    Li G, Chen S, Pholchai N, Reineke B, Wong P, Pun E, Cheah K, Zentgraf T, Zhang S 2015 Nat. Mater. 14 607

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    Yue Z, Xue G, Liu J, Wang Y, Gu M 2017 Nat. Commun. 8 15354

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    Lu L, Joannopoulos J, Soljačić M 2014 Nat. Photon. 8 821

    [55]

    Ni X, Kildishev A, Shalaev V 2013 Nat. Commun. 4 2807

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    Huang K, Liu H, Garcia-Vidal F, Hong M, Lukyanchuk B, Ten J, Qiu C 2015 Nat. Commun. 6 7059

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Metrics
  • Abstract views:  6677
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  • Cited By: 0
Publishing process
  • Received Date:  13 September 2017
  • Accepted Date:  25 October 2017
  • Published Online:  20 January 2019

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