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    Journals >Chinese Journal of Lasers >Volume 41 >Issue 9 >Page 908001 > Article
    • Chinese Journal of Lasers
    • Vol. 41, Issue 9, 908001 (2014)
    Preliminary Research in Section Structure Characteristics of Ancient Glaze Based on OCT Technology
    Yan Xin1、2、*, Dong Junqing1, Li Qinghui1, Guo Musen3, and Hu Yongqing3
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    DOI: 10.3788/cjl201441.0908001 Cite this Article Set citation alerts
    Yan Xin, Dong Junqing, Li Qinghui, Guo Musen, Hu Yongqing. Preliminary Research in Section Structure Characteristics of Ancient Glaze Based on OCT Technology[J]. Chinese Journal of Lasers, 2014, 41(9): 908001 Copy Citation Text show less
    References

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

    [2] Bouma B E, Tearney G J. Handbook of Optical Coherence Tomography[M]. New York: Marcel Dekker, Inc, 2002.

    [3] Li Peng, Huang Run, Gao Wanrong. Experiment research on optical coherence tomography of human skin[J]. Chinese J Lasers, 2009, 36(10): 2498-2502.

    [4] Meng Zhuo, Yao X Steve, Yao Hui, et al.. Detecting early artificial caries by using optical coherence tomography[J]. Chinese J Lasers, 2010, 37(11): 2709-2713.

    [5] Yu Haiming, Niu Yuan, Liu Guilin, et al.. Sweep light source OCT method for the test of textured monocrystalline silicon[J]. Laser & Optoelectronics Progress, 2013, 50(2): 021701.

    [6] Xu Peng, He Hong, Ding Zhihua. Research in subsurface morphologies of jades with optical coherence tomography[J]. Chinese J Lasers, 2011, 38(5): 0508004.

    [7] P Targowski, M Iwanicka, M Sylwestrzak, et al.. OCT structural examination of ‘Madonna dei Fusi’ by Leonardo da Vinci[C]. SPIE, 2013, 8790: 87900N.

    [8] H Liang, B Peric, M Hughes, et al.. Optical coherence tomography for art conservation & archaeology[C]. SPIE, 2007, 6618: 661805.

    [9] P Targowski, M Iwanicka. Optical coherence tomography: its role in the non-invasive structural examination and conservation of cultural heritage objects—a review[J]. Appl Phys A, 2012, 106(2): 265-277.

    [10] H Liang, M Sax, D Saunders, et al.. Optical coherence tomography for the non-invasive investigation of the microstructure of ancient Egyptian faience[J]. Journal of Archaeological Science, 2012, 39(12): 3683-3690.

    [11] Yang M L, Winkler A M , Barton J K, et al.. Using optical coherence tomography to examine the subsurface morphology of Chinese glazes[J]. Archaeometry, 2009, 51(5): 808-821.

    [12] Yang M L, Winkler A M, Klein J, et al.. Using optical coherence tomography to characterize thick-glaze structure: Chinese Southern Song Guan glaze case study[J]. Studies in Conservation, 2012, 57(2): 67-75.

    [13] Minghui Chen, Zhihua Ding, Lei Xu, et al.. All-fiber ring-cavity based frequency swept laser source for frequency domain OCT[J]. Chin Opt Lett, 2010, 8(2): 202-205.

    [14] Tong Wu, Youwen Liu. Optimal non-uniform fast Fourier transform for high-speed swept source optical coherence tomography[J]. Chin Opt Lett, 2013, 11(2): 021702.

    [15] Xi Peng, Mei Kai, Brauler T, et al.. Evaluation of spectrometric parameters in spectral-domain optical coherence tomography[J]. Appl Opt, 2011, 50(3): 366-372.

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    Yan Xin, Dong Junqing, Li Qinghui, Guo Musen, Hu Yongqing. Preliminary Research in Section Structure Characteristics of Ancient Glaze Based on OCT Technology[J]. Chinese Journal of Lasers, 2014, 41(9): 908001
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