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    Journals >Acta Optica Sinica >Volume 34 >Issue 2 >Page 211003 > Article
    • Acta Optica Sinica
    • Vol. 34, Issue 2, 211003 (2014)
    Reconstruction Method Based on the Detected Matrix for Spectral-Domain Optical Coherence Tomography
    Bian Haiyi*, Gao Wanrong, Zhang Xianling, and Chen Chaoliang
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3788/aos201434.0211003 Cite this Article Set citation alerts
    Bian Haiyi, Gao Wanrong, Zhang Xianling, Chen Chaoliang. Reconstruction Method Based on the Detected Matrix for Spectral-Domain Optical Coherence Tomography[J]. Acta Optica Sinica, 2014, 34(2): 211003 Copy Citation Text show less
    References

    [1] D Huang, E A Swanson, C P Lin, et al.. Optical coherence tomography [J]. Science, 1991, 254(5035): 1178-1181.

    [2] R Leitegeb, C K Hitzenberger, A F Fercher. Performance of Fourier domain versus time domain optical coherence tomography [J]. Opt Express, 2003, 11(8): 889-894.

    [3] Huang Bingjie, Bu Peng, Wang Xiangzhao, et al.. Optical coherence tomography based on depth resolved dispersion compensation [J]. Acta Optica Sinica, 2012, 32(2): 0217002.

    [4] Nan Nan, Bu Peng, Guo Xin, et al.. Three-dimensional full-range complex Fourier domain optical coherence tomography system for in vivo imaging of human skin [J]. Chinese J Lasers, 2012, 39(7): 0704002.

    [5] Chen Chaoliang, Gao Wanrong. Method of measuring dispersion and refractive index of transparent object based on spectral fiber low coherence imterferometry [J]. Chinese J Lasers, 2013, 40(10): 1008005.

    [6] Maciej Wojtkowski, Rainer Leitgeb, Andrzej Kowalczyk, et al.. In vivo human retinal imaging by Fourier domain optical coherence tomography [J]. J Biomed Opt, 2002, 7(3): 457-463.

    [7] T Gambichler, V Jacdicke, S Terras. Optical coherence tomography in dermatology: technical and clinical aspects [J]. Arch Dermatol Res, 2011, 303(7): 457-473.

    [8] A F Fercher. Optical coherence tomography [J]. J Biomed Opt, 1996, 1(2): 157-173.

    [9] N Nassif, B Cense, B Park, et al.. In vivo high-resolution video-rate spectral-domain optical coherence tomography of the human retina and optic nerve [J]. Opt Express, 2004, 12(3): 367-376.

    [10] B Hofer, B Povazay, B Hermann, et al.. Signal post processing in frequency domain OCT and OCM using a filter bank approach [C]. SPIE, 2007, 6443: 64430O.

    [11] Z Hu, A M Rollins. Fourier domain optical coherence tomography with a linear-in-wavenumber spectrometer [J]. Opt Lett, 2007, 32(24): 3525-3527.

    [12] K Wang, Z Ding, T Wu, et al.. Development of a non-uniform discrete Fourier transform based high speed spectral domain optical coherence tomography system [J]. Opt Express, 2009, 17(14): 12121-12131.

    [13] Zhang Xianling, Gao Wanrong, Bian Haiyi, et al.. Self-spectral calibration for spectral domain optical coherence tomography [J]. Opt Eng, 2013, 52(6): 063603.

    [14] Gerd Husler, Michael Walter Lindner. Coherence radar and spectral radar: new tools for dermatological diagnosis [J]. J Biomed Opt, 1998, 3(1): 21-31.

    [15] Chunmin Zhang, Xiaohua Jian. Wide-spectrum reconstruction method for a birefringence interference imaging spectrometer [J]. Opt Lett, 2010, 35(3): 366-368.

    [16] Wang Kai. Development of Spectral Domain Optical Coherence Tomography [D]. Hangzhou: Zhejiang University, 2010.

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    Bian Haiyi, Gao Wanrong, Zhang Xianling, Chen Chaoliang. Reconstruction Method Based on the Detected Matrix for Spectral-Domain Optical Coherence Tomography[J]. Acta Optica Sinica, 2014, 34(2): 211003
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