[1] AOURANT J R, BIGIO I J, BOYER J, et al.Spectroscopic diagnosis of bladder cancer with elastic light scattering［J］.Laser Surg Med, 1995, 17(4): 350.

[2] APOSTOLOPOULOS G, TSINOPOULOS S V, DERMATAS E.A methodology for estimating the shape of biconcave red blood cells using multicolor scattering images［J］.Biomed Signal Proces, 2013, 8(3): 263-72.

[3] 储晨曦, 卜令兵, 杨巨鑫, 用于偏振云粒子探测系统的典型非球形粒子散射特性模拟［J］.光散射学报, 2018, 30(02): 174-181(CHU Chenxi, BU Lingbing, YANG Juxin, Simulation of scattering characteristics of typical nonspherical particles for cloud particle detection system with polarization detection［J］.The Journal of Light Scattering, 2018, 30(02): 174-181).

[4] ARNOLD S, FULLER K A, GHAEMI A, et al.Morphological resonances detected from a cluster of two microspheres［J］.Opt Lett, 1994, 19(3): 156-158.

[5] ASHKIN A.Acceleration and trapping of particles by radiation pressure［J］.Phys Rev Lett, 1970, 24(4): 156.

[6] ASHKIN A, DZIEDZIC J M, BJORKHOLM J E, et al.Observation of a single-beam gradient forceoptical trap for dielectric particles［J］.Opt Lett, 1986, 11(5): 288-290.

[7] KINNUNEN M, KAUPPILA A, KARMENYAN A, et al.Measurement of elastic light scattering from two optically trapped microspheres and red blood cells in a transparent medium［J］.Opt Lett, 2011, 36(18): 3554-3556.

[8] 唐文来, 项楠, 黄笛, 等.基于微流控技术的单细胞生物物理特性表征［J］.化学进展, 2014, 26(6): 1050-1064(TANG Wenlai, XIANG Nan, HUANG Di, et al.Microfluidics-based single-cell biophysical characterization［J］.Progress in Chemistry, 2014, 26(6): 1050-1064.).

[9] SUN T, MORGAN H.Single-cell microfluidic impedance cytometry: a review［J］.Microfluid Nanofluid, 2010, 8(4): 423-443.

[10] 邓楠楠, 汪伟, 巨晓洁, 等.微流控技术操控微尺度液滴及其聚并的研究进展［J］.中国科学: 化学, 2015, 45(1): 7(DENG Nannan, WANG Wei, JU Xiaojie, et al.Recent advances in microfluidic manipulation and coalescence of microscale droplets［J］.Scientia Sinica, 2015, 45(1): 7).

[11] DAI J, LI W, GONG B, et al.Measurement of the light scattering of single micrometersized particles captured with a microfluidic trap［J］.Opt Exp, 2015, 23(23): 30204.

[12] PURCELL E M, PENNYPACKER C R.Scattering and adsorption of light by nonspherical dielectric grains［J］.ASTROPHYS J, 1973, 186: 705-714.

[13] DEAN C E, KATTAWAR G W.Electromagnetic scattering from two dielectric spheres: comparison between theory and experiment［J］.Opt Lett, 1983, 8(1): 48-50.

[14] WATERMAN P C.New formulation of acoustic scattering［J］.J Acoust Soc Am, 2005, 45(6): 1417-1429.

[15] WATERMAN P C.Symmetry, Unitarity, and geometry in electromagnetic scattering［J］.Phy Rev D, 1971, 3(4): 825-839.

[16] WATERMAN P C.Matrix formulation of electromagnetic scattering［J］.Proc IEEE, 1956, 53(8): 805-812.

[17] YURKIN M A, MALTSEV V P, HOEKSTRA A G.The discrete dipole approximation for simulation of light scattering by particles much larger than the wavelength［J］.J Quant Spectrosc Radiat Transfer, 2007, 106(1-3): 546-557.

[18] MACKOWSKI D W, MISHCHENKO M I.A multiple sphere T -matrix Fortran code for use on parallel computer clusters［J］.J Quant Spectrosc Radiat Transfer, 2011, 112(13): 2182-2192.