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    Journals >Chinese Optics Letters >Volume 20 >Issue 3 >Page 033401 > Article
    • Chinese Optics Letters
    • Vol. 20, Issue 3, 033401 (2022)
    Megapixel X-ray ghost imaging with a binned detector in the object arm
    Haipeng Zhang1、2、3, Ke Li2, Feixiang Wang2, Hong Yu4, Changzhe Zhao1、2、3, Guohao Du2, Zhongliang Li2, Biao Deng2, Honglan Xie2, Shensheng Han4, and Tiqiao Xiao1、2、3、*
    Author Affiliations
  • 1Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai 201800, China
  • 2Shanghai Synchrotron Radiation Facility/Zhangjiang Lab, Shanghai Advanced Research Institute, Chinese Academy of Sciences, Shanghai 201204, China
  • 3University of Chinese Academy of Sciences, Beijing 100049, China
  • 4Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
    • show less
    DOI: 10.3788/COL202220.033401 Cite this Article Set citation alerts
    Haipeng Zhang, Ke Li, Feixiang Wang, Hong Yu, Changzhe Zhao, Guohao Du, Zhongliang Li, Biao Deng, Honglan Xie, Shensheng Han, Tiqiao Xiao. Megapixel X-ray ghost imaging with a binned detector in the object arm[J]. Chinese Optics Letters, 2022, 20(3): 033401 Copy Citation Text show less
    References

    [1] A.-X. Zhang, Y.-H. He, L.-A. Wu, L.-M. Chen, B.-B. Wang. Tabletop X-ray ghost imaging with ultra-low radiation. Optica, 5, 374(2018).

    [2] H. Yu, R. Lu, S. Han, H. Xie, G. Du, T. Xiao, D. Zhu. Fourier-transform ghost imaging with hard X rays. Phys. Rev. Lett., 117, 113901(2016).

    [3] Z. Bo, W. Gong, S. Han. Motion de-blurring by second-order intensity-correlated imaging. Chin. Opt. Lett., 14, 070301(2016).

    [4] A. Valencia, G. Scarcelli, M. D’Angelo, Y. Shih. Two-photon imaging with thermal light. Phys. Rev. Lett., 94, 063601(2005).

    [5] J.-E. Oh, Y.-W. Cho, G. Scarcelli, Y.-H. Kim. Sub-Rayleigh imaging via speckle illumination. Opt. Lett., 38, 682(2013).

    [6] W.-K. Yu, X.-F. Liu, X.-R. Yao, C. Wang, G.-J. Zhai, Q. Zhao. Single-photon compressive imaging with some performance benefits over raster scanning. Phys. Lett. A, 378, 3406(2014).

    [7] J. Cheng. Ghost imaging through turbulent atmosphere. Opt. Express, 17, 7916(2009).

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

    [9] Y. Zhu, J. Shi, H. Li, G. Zeng. Three-dimensional ghost imaging based on periodic diffraction correlation imaging. Chin. Opt. Lett., 12, 071101(2014).

    [10] A. N. Boto, P. Kok, D. S. Abrams, S. L. Braunstein, C. P. Williams, J. P. Dowling. Quantum interferometric optical lithography: exploiting entanglement to beat the diffraction limit. Phys. Rev. Lett., 85, 2733(2000).

    [11] M. D’Angelo, M. V. Chekhova, Y. Shih. Two-photon diffraction and quantum lithography. Phys. Rev. Lett., 87, 013602(2001).

    [12] X.-H. Chen, I. N. Agafonov, K.-H. Luo, Q. Liu, R. Xian, M. V. Chekhova, L.-A. Wu. High-visibility, high-order lensless ghost imaging with thermal light. Opt. Lett., 35, 1166(2010).

    [13] X.-H. Chen, Q. Liu, K.-H. Luo, L.-A. Wu. Lensless ghost imaging with true thermal light. Opt. Lett., 34, 695(2009).

    [14] M. Zhang, Q. Wei, X. Shen, Y. Liu, H. Liu, J. Cheng, S. Han. Lensless Fourier-transform ghost imaging with classical incoherent light. Phys. Rev. A, 75, 021803(2007).

    [15] Y.-H. He, A.-X. Zhang, M.-F. Li, Y.-Y. Huang, B.-G. Quan, D.-Z. Li, L.-A. Wu, L.-M. Chen. High-resolution sub-sampling incoherent X-ray imaging with a single-pixel detector. APL Photonics, 5, 056102(2020).

    [16] A. M. Kingston, D. Pelliccia, A. Rack, M. P. Olbinado, Y. Cheng, G. R. Myers, D. M. Paganin. Ghost tomography. Optica, 5, 1516(2018).

    [17] D. Pelliccia, M. P. Olbinado, A. Rack, A. M. Kingston, G. R. Myers, D. M. Paganin. Towards a practical implementation of X-ray ghost imaging with synchrotron light. IUCrJ, 5, 428(2018).

    [18] D. Pelliccia, A. Rack, M. Scheel, V. Cantelli, D. M. Paganin. Experimental X-ray ghost imaging. Phys. Rev. Lett., 117, 113902(2016).

    [19] A. Schori, D. Borodin, K. Tamasaku, S. Shwartz. Ghost imaging with paired X-ray photons. Phys. Rev. A, 97, 063804(2018).

    [20] A. Schori, S. Shwartz. X-ray ghost imaging with a laboratory source. Opt. Express, 25, 14822(2017).

    [21] S. Li, F. Cropp, K. Kabra, T. J. Lane, G. Wetzstein, P. Musumeci, D. Ratner. Electron ghost imaging. Phys. Rev. Lett., 121, 114801(2018).

    [22] M. Cao, X. Yang, J. Wang, S. Qiu, D. Wei, H. Gao, F. Li. Resolution enhancement of ghost imaging in atom vapor. Opt. Lett., 41, 5349(2016).

    [23] A. M. Kingston, G. R. Myers, D. Pelliccia, F. Salvemini, J. J. Bevitt, U. Garbe, D. M. Paganin. Neutron ghost imaging. Phys. Rev. A, 101, 053844(2020).

    [24] T. Pittman, Y. Shih, D. Strekalov, A. Sergienko. Optical imaging by means of two-photon quantum entanglement. Phys. Rev. A, 52, R3429(1995).

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

    [26] H.-C. Liu, S. Zhang. Computational ghost imaging of hot objects in long-wave infrared range. Appl. Phys. Lett., 111, 031110(2017).

    [27] D. Ceddia, D. M. Paganin. Random-matrix bases, ghost imaging, and X-ray phase contrast computational ghost imaging. Phys. Rev. A, 97, 062119(2018).

    [28] D. Donoho. Compressed sensing. IEEE Trans. Inf. Theory, 52, 1289(2006).

    [29] W. Gong, S. Han. High-resolution far-field ghost imaging via sparsity constraint. Sci. Rep., 5, 9280(2015).

    [30] O. Katz, Y. Bromberg, Y. Silberberg. Compressive ghost imaging. Appl. Phys. Lett., 95, 131110(2009).

    [31] G. Wu, T. Li, J. Li, B. Luo, H. Guo. Ghost imaging under low-rank constraint. Opt. Lett., 44, 4311(2019).

    [32] R. Zhu, G.-S. Li, Y. Guo. Block-compressed-sensing-based reconstruction algorithm for ghost imaging. OSA Continuum, 2, 2834(2019).

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

    [34] X.-R. Yao, W.-K. Yu, X.-F. Liu, L.-Z. Li, M.-F. Li, L.-A. Wu, G.-J. Zhai. Iterative denoising of ghost imaging. Opt. Express, 22, 24268(2014).

    [35] K. W. C. Chan, M. N. O’Sullivan, R. W. Boyd. High-order thermal ghost imaging. Opt. Lett., 34, 3343(2009).

    [36] L.-H. Ou, L.-M. Kuang. Ghost imaging with third-order correlated thermal light. J. Phys. B, 40, 1833(2007).

    [37] W. Gong. High-resolution pseudo-inverse ghost imaging. Photonics Res., 3, 234(2015).

    [38] C. Zhang, S. Guo, J. Cao, J. Guan, F. Gao. Object reconstitution using pseudo-inverse for ghost imaging. Opt. Express, 22, 30063(2014).

    [39] W. M. Brown. Synthetic aperture radar. IEEE Trans. Aerosp. Electron. Syst., AES-3, 217(1967).

    [40] Y. Kang, Y.-P. Yao, Z.-H. Kang, L. Ma, T.-Y. Zhang. Performance analysis of compressive ghost imaging based on different signal reconstruction techniques. J. Opt. Soc. Am. A, 32, 1063(2015).

    [41] C. Li. An Efficient Algorithm for Total Variation Regularization with Applications to the Single Pixel Camera and Compressive Sensing(2011).

    [42] Z. Wang, A. Bovik, H. Sheikh, E. Simoncelli. Image quality assessment: from error visibility to structural similarity. IEEE Trans. Image Process., 13, 600(2004).

    [43] X.-F. Liu, X.-R. Yao, M.-F. Li, W.-K. Yu, X.-H. Chen, Z.-B. Sun, L.-A. Wu, G.-J. Zhai. The role of intensity fluctuations in thermal ghost imaging. Acta Phys. Sin., 62, 184205(2013).

    [44] H.-L. Xie, B. Deng, G.-H. Du, Y.-N. Fu, H. Guo, Y.-L. Xue, G.-Y. Peng, F. Tao, L. Zhang, T.-Q. Xiao. Methodology development and application of X-ray imaging beamline at SSRF. Nucl. Sci. Tech., 31, 102(2020).

    [45] L. Pan, C. Deng, C. Yu, S. Yue, W. Gong, S. Han. Influence of the sparsity of random speckle illumination on ghost imaging in a noise environment. Chin. Opt. Lett., 19, 041103(2021).

    [46] X. Xu, E. Li, X. Shen, S. Han. Optimization of speckle patterns in ghost imaging via sparse constraints by mutual coherence minimization. Chin. Opt. Lett., 13, 071101(2015).

    Data from CrossRef

    [1] David Ceddia, Andrew M. Kingston, Daniele Pelliccia, Alexander Rack, David M. Paganin. Ghost projection. II. Beam shaping using realistic spatially random masks. Physical Review A, 106, 033512(2022).

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    Haipeng Zhang, Ke Li, Feixiang Wang, Hong Yu, Changzhe Zhao, Guohao Du, Zhongliang Li, Biao Deng, Honglan Xie, Shensheng Han, Tiqiao Xiao. Megapixel X-ray ghost imaging with a binned detector in the object arm[J]. Chinese Optics Letters, 2022, 20(3): 033401
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