[1] Y. J. Kaufman, D. Tanré, O. Boucher. A satellite view of aerosols in the climate system [J]. Nature, 2002, 419(6903): 215～223

[2] U. Lohmann, G. Lesins. Stronger constraints on the anthropogenic indirect aerosol effect [J]. Science, 2002, 298(5595): 1012～1015

[3] J. Quaas, O. Boucher. Impacts of greenhouse gases and aerosol direct and indirect effects on clouds and radiation in atmospheric GCM simulations of the 1930~1989 period [J]. Climate Dynamics, 2004, 23(7-8): 779～789

[4] I. Rodriguez, S. Gali, C. Marcos. Atmospheric inorganic aerosol of a non-industrial city in the centre of an industrial region of the North of Spain, and its possible influence on the climate on a regional scale [J]. Environ. Geo., 2009, 56(8): 1551～1561

[5] C. Xie, T. Nishizawa, N. Sugimoto et al.. Characteristics of aerosol optical properties in pollution and Asian dust episodes over Beijing, China [J]. Appl. Opt., 2008, 47(27): 4945～4951

[6] Han Yong, Wang Tijian, Rao Ruizhong et al.. Progress in the study of physic-optics characteristics of atmospheric aerosols [J]. Acta Physica Sinica, 2008, 57(11): 7396～7407

[7] Z. Wu, I. Colbeck. Studies of the dynamic shape factor of aerosol agglomerates [J]. Europhysics Letters, 1996, 33(9): 719～724

[8] S. K. Friedlander, C. Xiong. Measurements of fractal-like atmospheric particles [J]. J. Aerosol. Sci., 2000, 31(suppl.1): 226～227

[9] M. Kahnert, T. Nousiainen, H. Lindquist et al.. Optical properties of light absorbing carbon aggregates mixed with sulfate: assessment of different model geometries for climate forcing calculations [J]. Opt. Express, 2012, 20(9): 10042～10058

[10] K. N. Liou, Y. Takano, P. Yang. Light absorption and scattering by aggregates: Application to black carbon and snow grains [J]. J. Quantitative Spectroscopy & Radiative Transfer, 2011, 112(10): 1581～1594

[11] M. Kahnert. Numerically exact computation of the optical properties of light absorbing carbon aggregates for wavelength of 200 nm-12.2 μm [J]. Atmos. Chem. Phys., 2010, 10: 8319～8329

[12] Wang Hongxia, Ma Jin, Song Zibiao et al.. Light scattering properties of fractal aggregates [J]. Acta Optica Sinica, 2011, 31(3): 0329001

[13] Lei Chengxin, Wu Zhensen, Feng Dongtai. Extinction characteristics of soot-silicate mixed agglomerates in random distribution [J]. Acta Optica Sinica, 2012, 32(4): 0429001

[14] Huang Chaojun, Wu Zhensen, Liu Yafeng et al.. Effect of porosity on optical properties of aerosol aggregate particles [J]. Acta Optica Sinica, 2013, 33(1): 0129001

[15] Huang Chaojun, Liu Yafeng, Wu Zhensen. Numerical calculation of optical cross section and scattering matrix for soot aggregation particles [J]. Acta Physica Sinica, 2007, 56(7): 4068～4074

[16] M. Balthasara, M. Frenklachb. Monte-Carlo simulation of soot particle coagulation and aggregation: the effect of a realistic size distribution [J]. Proceedings of the Combustion Institute, 2005, 30(1): 1467～1475

[17] B. T. Draine. The discrete-dipole approximation and its application to interstellar graphite grains [J]. Astrophys J., 1988, 333: 848～872

[18] B. T. Draine, J. Goodman. Beyond Clausius-Mossotti-Wave propagation on a polarizable point lattice and the discrete dipole approximation [J]. Astrophys J., 1993, 405(2): 685～697

[19] D. Deirmendjian. Electromagnetic Scattering on Spherical Polydispersions [M]. New York: American Elsevier Pub. Co., 1969. 75～77

[20] T. L. Farias, M. G. Carvalho, U. O. Koylü. Radiative heat transfer in soot-containing combustion systems with aggregation [J]. Int. J. Heat Mass Transfer, 1998, 41(17): 2581～2587