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    Journals >Advanced Imaging >Volume 1 >Issue 3 >Page 031002 > Article
    • Advanced Imaging
    • Vol. 1, Issue 3, 031002 (2024)
    Differential high-speed aperture-coding light field microscopy for dynamic sample observation with enhanced contrast
    Junzheng Peng1, Suyi Huang1, Jianping Li2, Xuejia He3..., Manhong Yao4, Shiping Li1 and Jingang Zhong1,*|Show fewer author(s)
    Author Affiliations
  • 1Department of Optoelectronic Engineering, Jinan University, Guangzhou, China
  • 2Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen, China
  • 3College of Life Science and Technology, Jinan University, Guangzhou, China
  • 4School of Optoelectronic Engineering, Guangdong Polytechnic Normal University, Guangzhou, China
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    DOI: 10.3788/AI.2024.10017 Cite this Article Set citation alerts
    Junzheng Peng, Suyi Huang, Jianping Li, Xuejia He, Manhong Yao, Shiping Li, Jingang Zhong, "Differential high-speed aperture-coding light field microscopy for dynamic sample observation with enhanced contrast," Adv. Imaging 1, 031002 (2024) Copy Citation Text show less
    References

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    [12] N. Cohen et al. Enhancing the performance of the light field microscope using wavefront coding. Opt. Express, 22, 24817(2014).

    [13] M. Broxton et al. Wave optics theory and 3-D deconvolution for the light field microscope. Opt. Express, 21, 25418(2013).

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    [15] C. Guo et al. Fourier light-field microscopy. Opt. Express, 27, 25573(2019).

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    [17] X. Hua, W. Liu, S. Jia. High-resolution Fourier light-field microscopy for volumetric multi-color live-cell imaging. Optica, 8, 614(2021).

    [18] A. Stefanoiu et al. What about computational super-resolution in fluorescence Fourier light field microscopy?. Opt. Express, 28, 16554(2020).

    [19] J. Wu et al. Iterative tomography with digital adaptive optics permits hour-long intravital observation of 3D subcellular dynamics at millisecond scale. Cell, 184, 3318(2021).

    [20] J. Wu et al. An integrated imaging sensor for aberration-corrected 3D photography. Nature, 612, 62(2022).

    [21] R. Usami et al. Dense parallax image acquisition method using single-pixel imaging for integral photography. Opt. Lett., 45, 25(2020).

    [22] Z. Zhang, X. Ma, J. Zhong. Single-pixel imaging by means of Fourier spectrum acquisition. Nat. Commun., 6, 6225(2015).

    [23] Z. Zhang et al. Hadamard single-pixel imaging versus Fourier single-pixel imaging. Opt. Express, 25, 19619(2017).

    [24] P. Sen et al. Dual photography. ACM Trans. Graph., 24, 745(2005).

    [25] H. Nagahara et al. Programmable aperture camera using LCoS, 337(2011).

    [26] H. Martin, J. A. S. Neil. Hadamard Transform Optics(1979).

    [27] S. Huang et al. Light-field photography using differential high-speed aperture coding. Appl. Opt., 63, 2939(2024).

    [28] G. M. Gibson, S. D. Johnson, M. J. Padgett. Single-pixel imaging 12 years on: a review. Opt. Express, 28, 28190(2020).

    [29] M. P. Edgar, G. M. Gibson, M. J. Padgett. Principles and prospects for single-pixel imaging. Nat. Photonics, 13, 13(2019).

    [30] Z. Zhang et al. Fast Fourier single-pixel imaging via binary illumination. Sci. Rep., 7, 12029(2017).

    [31] R. Ng. Digital light field photography(2006).

    [32] X. Lin et al. Camera array based light field microscopy. Biomed. Opt. Express, 6, 3179(2015).

    [33] J. Zhai, R. Shi, L. Kong. Improving signal-to-background ratio by orders of magnitude in high-speed volumetric imaging in vivo by robust Fourier light field microscopy. Photon. Res., 10, 1255(2022).

    [34] S. D. Babacan et al. Compressive light field sensing. IEEE Trans. on Image Process., 21, 4746(2012).

    [35] K. Marwah et al. Compressive light field photography using overcomplete dictionaries and optimized projections. ACM T. Graph., 32, 1(2013).

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    Junzheng Peng, Suyi Huang, Jianping Li, Xuejia He, Manhong Yao, Shiping Li, Jingang Zhong, "Differential high-speed aperture-coding light field microscopy for dynamic sample observation with enhanced contrast," Adv. Imaging 1, 031002 (2024)
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