[1] [1] J C Crocker, D G Grier. Microscopic measurement of the pair interaction potential of charge-stabilized colloid [J]. Phys Rev Lett, 1994, 73(2): 352-355.

[2] [2] Keir C Neuman, Attila Nagy. Single-molecule force spectroscopy: optical tweezers, magnetic tweezers and atomic force microscopy [J]. Nature Methods, 2008, 5(6): 491-505.

[3] [3] N Chenouard, I Smal, F de Chaumont, et al.. Objective comparison of particle tracking methods [J]. Nature Methods, 2014, 11(3): 281-290.

[4] [4] Wu Yingchun, Wu Xuecheng, Cen Kefa. Development of digital holography in particle field measurement [J]. Chinese J Lasers, 2014, 41(6): 0601001.

[5] [5] Zhang Zhipeng, Menq ChiaHsiang. Three-dimensional particle tracking with subnanometer resolution using off-focus image [J]. Appl Opt, 2008, 47(13): 2361-2370.

[6] [6] Jian Sheng, Edwin Malkiel, Joseph Katz. Digital holographic microscope for measuring three-dimensional particle distributions and motions [J]. Appl Opt, 2006, 45(16): 3893-3901.

[7] [7] Han Changcai, Cao Na, Lei Lan, et al.. Study on a method for segmentation of atomization field holography in a combustion chamber [J]. Laser & Optoelectronics Progress, 2014, 51(8): 080901.

[8] [8] Lü Qieni, Gao Yan, Ge Baozhen, et al.. Digital holographic particle sizing with hough transform [J]. Chinese J Lasers, 2009, 36(4): 940-944.

[9] [9] V R Singh, E Darakis, G Hegde, et al.. A new methodology for pixel size retention in lensless digital holographic microscopy applied to micro-particle analysis [J]. J Opt, 2011, 13(3): 035704.

[10] [10] J W Goodman. Introduction for Fourier Optics [M]. New York: Roberts & Company Publishers, 2005.

[11] [11] Xiong Bingheng, Li Junchang. Holography Interference Measure Principes & Method [M]. Beijing: Science Press, 2009. 206-257.

[12] [12] L Dixon, F C Cheong, D G Grier. Holographic deconvolution microscopy for high-resolution particle tracking [J]. Opt Express, 2011, 19(17): 16410-16417.

[13] [13] F C Cheong, K Xiao, D G Grier. Strategies for three-dimensional particle tracking with holographic video microscopy [J]. Opt Express, 2010, 18(13):13563-13573.

[14] [14] Wu Yingchun, Wu Xuecheng, Wang Zhihua, et al.. Reconstruction of digital inline hologram with compressed sensing [J]. Acta Optica Sinica, 2011, 31(11): 1109001.

[15] [15] D K Singh, P K Panigrahi. Automatic threshold technique for holographic particle field characterization [J]. Appl Opt, 2012, 51(17): 3874-3887.

[16] [16] Lu Huimin, Xu Ming, Li Xun. Image deblurring with adaptive signal-noise ratio estimation for computational imaging system [J]. Acta Optica Sinica, 2014, 34(8): 0810002.

[17] [17] Wes Wallace, Lutz H Schaefer, Jason R Swedlow. A workingperson′s guide to deconvolution in light microscopy [J]. Biotech, 2001, 31(5): 1076-1097.

[18] [18] Y Cotte, M F Toy, N Pavillon, et al.. Microscopy image resolution improvement by deconvolution of complex fields [J]. Opt Express, 2010, 18(19): 19462-19478.

[19] [19] T Latychevskaia, F Gehri, H W Fink. Depth-resolved holographic reconstructions by three-dimensional deconvolution [J]. Opt Express, 2010, 18(21): 22527-22544.

[20] [20] F Verpillat, F Joud, P Desbiolles, et al.. Dark-field digital holographic microscopy for 3D-tracking of gold nanoparticles [J]. Opt Express, 2011, 19(27): 26044-26055.