[1] [1] S. G. Daniel, A. Sanjee, R. Milind. Line-scanning reflectance confocal microscopy of human skin: comparison of full-pupil and divided-pupil configurations［J］. Opt. Lett., 2009, 34(20): 3235～3237

[2] [2] Li Peng, Huang Run, Gao Wanrong. Experiment research on optical coherence tomography of human skin［J］. Chinese J. Lasers, 2009, 36(10): 2498～2502

[3] [3] Li Zuangfang, Huang Zufang, Chen Rong et al.. Two photon fluorescence imaging of thyroid tissue［J］. Chinese J. Lasers, 2009, 36(3): 765～768

[4] [4] Li Lanquan, Wei Huajiang, He Bohua et al.. Gastric cancer detection using diffuse reflectance spectral ratio R540/R575of oxygenated hemoglobin band［J］. Acta Optica Sinica, 2009, 29(10): 2860～2865

[5] [5] F. L. Primo, M. V. L. B. Bentley, A. C. Tedesco. Photophysical studies and in vitro skin permeation/retention of foscan/nanoemulsion (NE) applicable to photodynamic therapy skin cancer treatment［J］. J. Nanoscience Nanotechnology, 2008, 8(1): 340～347

[6] [6] J. M. Schmitt, A. Knüttel. Model of optical coherence tomography of heterogeneous tissue［J］. J. Opt. Soc. Am. A, 1997, 14(6): 1231～1242

[7] [7] Y. Deng, M. Ignor. Latest progress of Monte Carlo simulation of light transmission in tissues［J］. Acta Physica Sinica, 2010, 59(2): 1398～1401

[8] [8] A. Tycho, T. M. Jrgensen, H. T. Yura et al.. Derivation of a Monte Carlo method for modeling heterodyne detection in optical coherence tomography systems［J］. Appl. Opt., 2002, 41(31): 6676～6691

[9] [9] Q. Fang, D. A. Boas. Monte Carlo simulation of photon migration in 3D turbid media accelerated by graphics processing units［J］. Opt. Express, 2009, 17(22): 20178～20190

[10] [10] J. E. Bender, K. Vishwanath, L. K. Moore et al.. A robust Monte Carlo model for the extraction of biological absorption and scattering in vivo［J］. IEEE Trans. Biomed. Engng., 2009, 56(4): 960～968

[11] [11] L. H. Wang, S. J. Jacques, L. Q. Zheng. MCML-Monte Carlo modeling of photon transport in multi-layered tissue［J］. Comput. Methods Programs Biomed., 1995, 47(2): 131～146

[12] [12] L. Lin, M. Zhang, H. L. Zhang. Numerical simulation of focused optical beam in tissue samples［J］. Chin. J. Med. Imaging Technol., 2010, 26(12): 2375～2378

[13] [13] Q. Liu, N. Ramanujam. Scaling method for fast Monte Carlo simulation of diffuse reflectance spectra from multilayered turbid media［J］. J. Opt. Soc. Am. A, 2007, 24(4): 1011～1025

[14] [14] C. K. Hayakawa, J. Spanier, F. Bevilacqua et al.. Perturbation Monte Carlo methods to solve inverse photon migration problems in heterogeneous tissues［J］. Opt. Lett., 2001, 26(17): 1335～1337

[15] [15] A. Sassaroli, C. Blumetti, F. Martelli et al.. Monte Carlo procedure for investigating light propagation and imaging of highly scattering media［J］. Appl. Opt., 1998, 37(31): 7392～7400

[16] [16] C. Chen, J. Q. Lu, H. Ding et al.. A primary method for determination of optical parameters of turbid samples and application to intralipid between 550 and 1630 nm［J］. Opt. Express, 2006, 14(6): 7421～7435