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    Journals >Infrared and Laser Engineering >Volume 46 >Issue 10 >Page 1033001 > Article
    • Infrared and Laser Engineering
    • Vol. 46, Issue 10, 1033001 (2017)
    Light scattering from lung cancer cells and its Polystyrene microsphere models
    Lin Xiaogang*, Zhu Hao, Weng Lingdong, and Wan Nan
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3788/irla201746.1033001 Cite this Article
    Lin Xiaogang, Zhu Hao, Weng Lingdong, Wan Nan. Light scattering from lung cancer cells and its Polystyrene microsphere models[J]. Infrared and Laser Engineering, 2017, 46(10): 1033001 Copy Citation Text show less
    References

    [1] Dunn A K, Smithpeter C L, Welch A J, et al. Finite-difference time-domain simulation of light scattering from single cells[J]. Journal of Biomedical Optics, 1997, 2(3): 262-266.

    [2] Garcia Lopez A C, Garcia Rubio L H. Rayleigh-Debye-Gans as a model for continuous monitoring of biological particles: Part II, development of a hybrid model[J]. Optics Express, 2008, 16(7): 4671-4687.

    [3] Drezek R, Dunn A, Richards Kortum R. A pulsed finite-difference time-domain (FDTD) method for calculating light scattering from biological cells over broad wavelength ranges[J]. Optics Express, 2000, 6(7): 147-157.

    [4] Brunsting A, Mullaney P F. Light scattering from coated spheres: model for biological cells[J]. Applied Optics, 1972, 11(3): 675-680.

    [5] Mourant J R, Freyer J P, Hielscher A H, et al. Mechanisms of light scattering from biological cells relevant to noninvasive optical-tissue diagnostics[J]. Applied Optics, 1998, 37(16): 3586-3593.

    [6] Wriedt T. A review of elastic light scattering theories[J]. Particle & Particle Systems Characterization, 1998, 15(2): 67-74.

    [7] Liu C, Capjack C, Rozmus W. 3-D simulation of light scattering from biological cells and cell differentiation[J].Journal of Biomedical Optics, 2005, 10(1): 014007.

    [8] Drezek R, Dunn A, Richards-Kortum R. Light scattering from cells: finite-difference time-domain simulations and goniometric measurements[J]. Applied Optics, 1999, 38(16): 3651-3661.

    [9] Sloot P M A, Figdor C G. Elastic light scattering from nucleated blood cells: rapid numerical analysis[J]. Applied Optics, 1986, 25(19): 3559-3565.

    [10] Mullaney P F, Dean P N. The small-angle light scattering of biological cells: theoretical considerations[J]. Biophysical Journal, 1970, 10(8): 764.

    [11] Drezek R, Guillaud M, Collier T, et al. Light scattering from cervical cells throughout neoplastic progression: influence of nuclear morphology, DNA content, and chromatin texture[J]. Journal of Biomedical Optics, 2003, 8(1): 7-16.

    [12] Lin X, Wan N, Weng L, et al. Light scattering from normal and cervical cancer cells[J]. Applied Optics, 2017, 56(12): 3608.

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    Lin Xiaogang, Zhu Hao, Weng Lingdong, Wan Nan. Light scattering from lung cancer cells and its Polystyrene microsphere models[J]. Infrared and Laser Engineering, 2017, 46(10): 1033001
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