[1] Saleh R, Robinson E S, Tkacik D S, et al. Brownness of organics in aerosols from biomass burning linked to their black carbon content［J］. Nature Geoscience, 2014, 7(9):647-650.

[2] Zhang J K, Sun Y, Liu Z R, et al. Characterization of submicron aerosols during a month of serious pollution in Beijing, 2013［J］. Atmospheric Chemistry and Physics, 2014, 14(6): 2887-2903.

[3] Kulkarni P, Baron P A, Willeke K. Aerosol measurement: principles, techniques, and applications［M］. Third edition. Academic, 2011.

[4] Yasa Z, Nabil M. Amer H. et al. Photoacoustic investigation of urban aerosol particles［J］. Applied Optics. 1979,18(15): 2528-2530.

[5] Ramanathan V, Carmichael G. Global and regional climate changes due to black carbon［J］. Nature geoscience, 2008, 1(4): 221-227.

[6] Lee S H, Murphy D M, Thomson D S, et al. Chemical components of single particles measured with Particle analysis by laser mass spectrometry (PALMS) during the Atlanta SuperSite Project: Focus on organic/sulfate, lead, soot, and mineral particles［J］. Journal of Geophysical Research: Atmospheres, 2002, 107(D1): AAC 1-1-AAC 1-13.

[7] Murr L E, Soto K F. A TEM study of soot, carbon nanotubes, and related fullerene nanopolyhedra in common fuel-gas combustion sources［J］. Materials Characterization, 2005, 55(1): 50-65.

[8] Watson J G, Chow J C, Chen L W A, et al. Elemental and morphological analyses of filter tape deposits from a beta attenuation monitor［J］. Atmospheric Research, 2012, 106: 181-189.

[9] Pinnick R G, Rosen J M, Hofmann D J. Measured light-scattering properties of individual aerosol particles compared to Mie scattering theory［J］. Applied optics, 1973, 12(1): 37-41.

[10] Tuchin V V. Polarized light interaction with tissues［J］. Journal of biomedical optics, 2016, 21(7): 071114-071114.

[12] Cheng T, Wu Y, Gu X, et al. Effects of mixing states on the multiple-scattering properties of soot aerosols［J］. Optics Express, 2015, 23(8): 10808-10821.

[16] Webster J G. Polarization measurement, in The Measurement, Instrumentation and Sensors Handbook［M］. CRC Press, 1998, Chap. 60.

[17] Bohren C F, Huffman D R. Absorption and scattering of light by small particles［M］. John Wiley & Sons, 2008.

[18] Hussein T, Dal Maso M, Petaja T, et al. Evaluation of an automatic algorithm for fitting the particle number size distributions［J］. Boreal environment research, 2005, 10(5):337.

[20] Andreae M O, Gelencsér A. Black carbon or brown carbon The nature of light-absorbing carbonaceous aerosols［J］. Atmospheric Chemistry and Physics, 2006, 6(10): 3131-3148.

[21] Li H, Wang Q, Yang M, et al. Chemical characterization and source apportionment of PM 2.5 aerosols in a megacity of Southeast China［J］. Atmospheric Research, 2016, 181: 288-299.

[22] Renard J B, Worms J C, Lemaire T, et al. Light scattering by dust particles in microgravity: polarization and brightness imaging with the new version of the PROGRA2 instrument［J］. Applied optics, 2002, 41(4): 609-618.

[23] Renard, Jean-Baptiste, et al. Small-angle light scattering by airborne particulates: Environnement SA continuous particulate monitor［J］. Measurement Science and Technology, 2010, 21(8):085901.

[24] Patterson E M, Gillette D A, Stockton B H. Complex index of refraction between 300 and 700 nm for Saharan aerosols ［J］. Journal of Geophysical Research, 1977. 82(TOC): 3153-3160.