[1] X. Zhang, M. Lewis, W. Bissett et al.. Optical influence of ship wakes[J]. Appl. Opt., 2004, 43(15): 3122~3132
[2] D. Stramski. Gas microbubbles: an assessment of their significance to light scattering in quiescent seas[C]. SPIE, 1994, 2258: 704~710
[3] P. Jacek, S. Dariusz, T. Eric et al.. Small-scale effects of underwater bubble clouds on ocean reflectance: 3-D modeling results[J]. Opt. Express, 2009, 17(14): 11747~11752
[9] Shi Shengwei, Jiang Xingzhou, Wang Jiang′an et al.. The characteristic study of pulsed laser light backscattering of the simulated wake bubbles[J]. J. Optoelectronics·Laser, 2007, 18(12): 1508~1512
[10] Su Liping, Zhang Weijiang, Ren Deming et al.. The backscattering property experiment research of wake bubbles[C]. SPIE, 2007, 6595: 659524
[11] Min Xia, Kecheng Yang, Xiaohui Zhang et al.. Monte Carlo simulation of backscattering signal from bubbles under water[J]. J. Opt. A: Pure Appl. Opt., 2006, 8(3): 350~354
[12] S. Bartel, A. Hielsher. Monte Carlo simulations of the diffuse backscattering Mueller matrix for highly scattering media[J]. Appl. Opt., 2000, 39(10): 1580~1588
[13] X. Wang, L. V. Wang. Propagation of polarized light in birefringent turbid media: a Monte Carlo study[J]. J. Biomed. Opt., 2002, 7(3): 279~290
[14] M. J. Rakovic, G. W. Kattawar, M. Mehrubeoglu et al.. Light backscattering polarization patterns from turbid media: theory and experiment[J]. Appl. Opt., 1999, 38(15): 3399~3408
[15] C. Jessica, R. Ramella, A. P. Scott et al.. Three Monte Carlo programs of polarized light transport into scattering media: part I[J]. Opt. Express, 2005, 13(12): 4420~4438
[16] J. Franck, S. J. Herve. Description and time reduction of a Monte Carlo code to simulate propagation of polarized light through scattering media[J]. Appl. Opt., 2003, 42(16): 3290~3296
[17] K. I. Hopcraft, P. C. Y. Chang, J. G. Walker et al.. Properties of Polarized light-beam multiply scattered by Rayleigh medium[C]. Lecture Notes in Physics, 2000, 534: 135~158
[18] Q. Lu, Q. Luo. Phase function of Monte Carlo simulation of light transport in turbid media[C]. SPIE, 2003, 5254(122): 122~130
[19] C. Bohren, D. R. Huffman. Absorption and Scattering of Light by Small Particles [M]. New York: Wiley, 1998
[20] S. Chandrasekhar. Radiative Transfer [M]. Oxford: Clarendon Press, 1950
[21] D. Benoit, D. Clary. Quaternion formulation of diffusion quantum Monte Carlo for the rotation of rigid molecules in clusters[J]. J. Chem. Phys., 2000, 113(13): 5193~5202
[22] J. W. Hovenier. Symmetry relationships for scattering of polarized light in a slab of randomly oriented particles[J]. J. Atmos. Sci., 1969, 26(3): 488~499
[23] M. V. Trevorrow, S. Vage, D. M. Farmer. Acoustical measurements of micro bubbles within ship wakes[J]. J. Acoust. Soc. Am., 1994, 95(4): 1922~1930
[24] Alexander Sutin, Alexander Benilov, Heui Seol Roh et al.. Acoustic measurements of bubbles in the wake of ship models[C]. Proceedings of the 3rd International Conference on Underwater Acoustic Measurements: Technologies and Results, 2009. 767~772
[25] E. J. Terrill, W. K. Melville, D. Stramski. Bubble entrainment by breaking waves and their influence on optical scattering in the upper ocean[J]. J.Geophys. Res., 2001, 106(8): 16815~16823
[26] R. C. Smith, K. S. Baker. Optical properties of the clearest natural waters (200~800 nm)[J]. Appl. Opt., 1981, 20(2): 177~184