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    Journals >Photonics Research >Volume 5 >Issue 5 >Page 431 > Article
    • Photonics Research
    • Vol. 5, Issue 5, 431 (2017)
    Performance analysis of ghost imaging lidar in background light environment
    Chenjin Deng1、2, Long Pan1、2, Chenglong Wang1、2, Xin Gao1, Wenlin Gong1、*, and Shensheng Han1
    Author Affiliations
  • 1Key Laboratory for Quantum Optics and Center for Cold Atom Physics of CAS, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 2University of Chinese Academy of Sciences, Beijing 100049, China
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    DOI: 10.1364/PRJ.5.000431 Cite this Article Set citation alerts
    Chenjin Deng, Long Pan, Chenglong Wang, Xin Gao, Wenlin Gong, Shensheng Han. Performance analysis of ghost imaging lidar in background light environment[J]. Photonics Research, 2017, 5(5): 431 Copy Citation Text show less
    References

    [1] M. D. Angelo, Y. Shih. Quantum imaging. Laser Phys. Lett., 2, 567-596(2005).

    [2] D. Z. Cao, J. Xiong, K. Wang. Geometrical optics in correlated imaging systems. Phys. Rev. A, 71, 013801(2005).

    [3] D. Zhang, Y. Zhai, L. Wu, X. Chen. Correlated two-photon imaging with true thermal light. Opt. Lett., 30, 2354-2356(2005).

    [4] J. Cheng, S. Han. Theoretical analysis of quantum noise in ghost imaging. Chin. Phys. Lett., 22, 1676-1679(2005).

    [5] A. Gatti, M. Bache, D. Magatti, E. Brambilla, F. Ferri, L. A. Lugiato. Coherent imaging with pseudo-thermal incoherent light. J. Mod. Opt., 53, 739-760(2006).

    [6] W. Gong, P. Zhang, X. Shen, S. Han. Ghost “pinhole” imaging in Fraunhofer region. Appl. Phys. Lett., 95, 071110(2009).

    [7] B. I. Erkmen. Computational ghost imaging for remote sensing. J. Opt. Soc. Am. A, 29, 782-789(2012).

    [8] C. Zhao, W. Gong, M. Chen, E. Li, H. Wang, W. Xu, S. Han. Ghost imaging lidar via sparsity constraints. Appl. Phys. Lett., 101, 141123(2012).

    [9] M. Chen, E. Li, W. Gong, Z. Bo, X. Xu, C. Zhao, X. Shen, W. Xu, S. Han. Ghost imaging lidar via sparsity constraints in real atmosphere. Opt. Photon. J., 3, 83-85(2013).

    [10] N. D. Hardy, J. H. Shapiro. Computational ghost imaging versus imaging laser radar for three dimensional imaging. Phys. Rev. A, 87, 023820(2013).

    [11] Y. Yang, J. Shi, F. Cao, J. Peng, G. Zeng. Computational imaging based on time-correlated single-photon-counting technique at low light level. Appl. Opt., 54, 9277-9283(2015).

    [12] W. Gong, C. Zhao, H. Yu, M. Chen, W. Xu, S. Han. Three-dimensional ghost imaging lidar via sparsity constraint. Sci. Rep., 6, 26133(2016).

    [13] W. Gong, H. Yu, C. Zhao, Z. Bo, M. Chen, W. Xu. Improving the imaging quality of ghost imaging lidar via sparsity constraint by time-resolved technique. Remote Sens., 8, 991(2016).

    [14] X. Yang, Y. Zhang, C. Yang, L. Xu, Q. Wang, Y. Zhao. Heterodyne 3D ghost imaging. Opt. Commun., 368, 1-6(2016).

    [15] C. Deng, W. Gong, S. Han. Pulse-compression ghost imaging lidar via coherent detection. Opt. Express, 24, 25983-25994(2016).

    [16] F. Ferri, D. Magatti, L. A. Lugiato, A. Gatti. Differential ghost imaging. Phys. Rev. Lett., 104, 253603(2010).

    [17] B. Sun, S. S. Welsh, M. P. Edgar, J. H. Shapiro, M. J. Padgett. Normalized ghost imaging. Opt. Express, 20, 16892-16901(2012).

    [18] N. S. Kopeika, J. Bordogna. Background noise in optical communication systems. Proc. IEEE, 58, 1571-1577(1970).

    [19] J. W. Goodman. Introduction to Fourier Optics(1968).

    [20] W. Gong. High-resolution pseudo-inverse ghost imaging. Photon. Res., 3, 234-237(2015).

    CLP Journals

    [1] Zijie Li, Qing Zhao, Wenlin Gong. Performance comparison of ghost imaging versus conventional imaging in photon shot noise cases[J]. Chinese Optics Letters, 2020, 18(7): 071101

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    Chenjin Deng, Long Pan, Chenglong Wang, Xin Gao, Wenlin Gong, Shensheng Han. Performance analysis of ghost imaging lidar in background light environment[J]. Photonics Research, 2017, 5(5): 431
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