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    Journals >Acta Optica Sinica >Volume 24 >Issue 10 >Page 1297 > Article
    • Acta Optica Sinica
    • Vol. 24, Issue 10, 1297 (2004)
    Preliminary Investigation of Second-Order Dispersion for Noninvasively Measuring Glucose Concentration in Human Body
    [in Chinese] and [in Chinese]
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    [in Chinese], [in Chinese]. Preliminary Investigation of Second-Order Dispersion for Noninvasively Measuring Glucose Concentration in Human Body[J]. Acta Optica Sinica, 2004, 24(10): 1297 Copy Citation Text show less
    References

    [1] Blank T B, Ruchti T L, Malin S F et al.. The use of near-infrared reflectance for the non-invasive prediction of blood glucose levels. IEEE Laser Electro-Optics Society Newsletter, 1999, 13(5):9~12

    [2] Back D M, Michalska D F, Polavarapuu P L. Fourier transform infrared spectroscopy as a powerful tool for the study of carbohydrates in aqueous solution. Appl. Spectroscopy, 1984, 38(1):173~180

    [3] Wicksted J P, Erckens R J, Motamedi M et al.. Raman spectroscopy studies of metabolic concentrations in aqueous solution and aqueous humor species. Appl. Spectroscopy, 1995, 49(7): 987~993

    [4] Zhao Z. Pulsed photoacoustic techniques and glucose determination in human blood and tissue, [PhD dissertation]. Finland: University of Oulu, 2002

    [5] Esenaliev R O, Larin K V, Larina I V et al.. Noninvasive monitoring of glucose concentration with optical coherence tomography. Opt. Lett., 2001, 26(13): 992~994

    [6] Chou C, Han C Y, Kuo W C et al.. Noninvasive glucose monitoring in vivo with an optical heterodyne polarimeter. Appl. Opt., 1998, 37(16): 3553~3557

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

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

    [9] Fercher A F, Hitzenberger C K, Sticker M et al.. A thermal source technique for optical coherence tomography. Opt. Commun., 2000, 185(1): 57~64

    [10] Cochran E R. Limitations of the phase-measuring interferometery for surface characterization and testing: A review. Pro. SPIE, 1992, 1776: 151~157

    [11] Born M, Wolf E. Principles of Optics. 7th Edition, 1999. 223~228

    [12] Fercher A F, Hitzenberger C K, Sticker M et al.. Dispersion compensation for optical coherence tomography depth-scan signals by a numerical technique. Opt. Commun., 2002, 204(1): 67~74

    [13] Engen G V, Diddams S A, Clement T S. Dispersion measurements of water with white-light interferometry. Appl. Opt., 1998, 37(24): 5679~5686

    [14] Rollins A M, Izatt J A. Optimal interferometer designs for optical coherence tomography. Opt. Lett., 1999, 24(21): 1484~1486

    CLP Journals

    [1] [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Possible correlation between second-order dispersion and glucose concentration investigated by low time-coherence interferometry[J]. Chinese Optics Letters, 2005, 3(0s): 91

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    [in Chinese], [in Chinese]. Preliminary Investigation of Second-Order Dispersion for Noninvasively Measuring Glucose Concentration in Human Body[J]. Acta Optica Sinica, 2004, 24(10): 1297
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