[1] [1] L Wang, P P Ho, C Liu, et al.. Ballistic 2-d imaging through scattering walls using an ultrafast optical Kerr gate[J]. Science, 1991, 253(5021): 769-771.

[2] [2] C Dunsby, P M W French. Techniques for depth-resolved imaging through turbid media including coherence-gated imaging[J]. Journal of Physics D: Applied Physics, 2003, 36(14): R207-R227.

[3] [3] D Doxaran, M Babin, E Leymarie, et al.. Near-infrared light scattering by particles in coastal waters[J]. Opt Express, 2007, 15(20): 12834-12849.

[4] [4] A F Fercher. Optical coherence tomography[J]. Journal of Biomedical Optics, 1996, 1(2): 157-173.

[5] [5] J B Schmidt, Z D Schaefer, T R Meyer, et al.. Ultrafast time-gated ballistic-photon imaging and shadowgraphy in optically dense rocket sprays[J]. Applied Optics, 2009, 48(4): B137-B144.

[6] [6] D R Symes, U Wegner, H C Ahlswede, et al.. Ultrafast gated imaging of laser produced plasmas using the optical Kerr effect[J]. Applied Physics Letters, 2010, 96(1): 011109.

[7] [7] Tong Junyi, Yang Yi, Si Jinhai, et al.. Measurements of the scattering coefficients of intralipid solutions by a femtosecond optical Kerr gate[J]. Optical Engineering, 2011, 50(4): 043607.

[8] [8] Tong Junyi, Tan Wenjiang, Si Jinhai, et al.. High time-resolved imaging of targets in turbid media using ultrafast optical kerr gate[J]. Chinese Physics Letters, 2012, 29(2): 024207.

[9] [9] Tan Wenjiang, Zhou Zhiguang, Lin Aoxiang, et al.. High contrast ballistic imaging using femtosecond optical Kerr gate of tellurite glass[J]. Opt Express, 2013, 21(6): 7740-7747.

[10] [10] T J Farrell, M S Patternson, B C Wilson. A diffusion theory model of spatially resolved, steady-state diffuse reflectance for the noninvasive determination of tissue optical properties in vivo[J]. Medical Physics, 1992, 19(4): 879-888.

[11] [11] S R Arridge, H Dehghani, M Schweiger, et al.. The finite element model for the propagation of light in scattering media: a direct method for domains with nonscattering regions[J]. Medical Physics, 2000, 27(1): 252-264.

[12] [12] L T Perelman, Wu Jun, I Itzkan, et al.. Photon migration in turbid media using path integrals[J]. Physical Review Letters, 1994, 72(9): 1341-1344.

[13] [13] Wu Kaihua, Yang Guanling, He Zhenjiang. The influence of medium parameters on the transmitted intensity and shape of ultrashort laser pulses[J]. Chinese J Lasers, 1999, 26(7): 623-626.

[14] [14] Wang Jiangang, Wang Guiying, Xu Xhizhan. Monte-Carlo simulations for light propagation in striated scattering medium[J]. Acta Optica Sinica, 2000, 20(3): 346-350.

[15] [15] B C Wilson, G Adam. A Monte Carlo model for the absorption and flux distribution of light in tissue[J]. Medical Physics, 1983, 10(6): 824-830.

[16] [16] Wang Lihong, S L Jacques, Zheng Liqiong. Mcml-Monte-Carlo modeling of light transport in multilayered tissues[J]. Computer Methods and Programs in Biomedicine, 1995, 47(2): 131-146.

[17] [17] Wang Lihong, S L Jacques, Zheng Liqiong. Conv-convolution for responses to a finite diameter photon beam incident on multi-layered tissues[J]. Computer Methods and Programs in Biomedicine, 1997, 54(3): 141-150.

[18] [18] Wang Lihong, S L Jacques. Hybrid model of Monte Carlo simulation and diffusion theory for light reflectance by turbid media[J]. Journal of the Optical Society of America A, 1993, 10(8): 1746-1752.

[19] [19] Wang Lihong, S L Jacques. Rapid modeling of diffuse reflectance of light in turbid slabs[J]. Journal of the Optical Society of America A, 1998, 15(4): 936-944.

[20] [20] Fang Qianqian, 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.

[21] [21] 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(16): 7420-7435.

[22] [22] A Tycho, T M Jogensen, H T Yura, et al.. Derivation of a Monte Carlo method for modeling heterodyne detection in optical coherence tomography systems[J]. Applied Optics, 2002, 41(31): 6676-6691.

[23] [23] K M Yoo, F Liu, R R Alfano, et al.. Imaging through a scattering wall using absorption[J]. Opt Lett, 1991, 16(14): 1068-1070.