[1] MALSCH D, KIELPINSKI M, MERTHAN R, et al. mPIVAnalysis of Taylor flow in micro channels [J]. Chemical Engineering Journal, 2008, 135(Suppl.1): S166-S172.
[2] VAN STEIJN V, KREUTZER M T,KLEIJN C R. mPIV study of the formation of segmented flow in microfluidic Tjunctions [J]. Chemical Engineering Science, 2007, 62(24): 7505-7514.
[3] SHEEN H, HSU C, WU T, et al. Unsteady flow behaviors in an obstacletype valveless micropump by microPIV [J]. Microfluidics and Nanofluidics, 2008, 4(4): 331-342.
[4] KIM B J, LIU Y Z,SUNG H J. Micro PIV measurement of twofluid flow with different refractive indices [J]. Measurement Science and Technology, 2004, 15(6): 1097-1103.
[5] HAIGERMOSER C, SCARANO F,ONORATO M. Investigation of the flow in a circular cavity using stereo and tomographic particle image velocimetry [J]. Experiments in Fluids, 2009, 46(3): 517-526.
[6] WORTH N A,NICKELS T B. Acceleration of TomoPIV by estimating the initial volume intensity distribution [J]. Experiments in Fluids, 2008, 45(5): 847-856.
[7] ELSINGA G E, SCARANO F, WIENEKE B, et al. Tomographic particle image velocimetry [J]. Experiments in Fluids, 2006, 41(6): 933-947.
[8] DEPEURSINGE C D, CUCHE E, MARQUET P, et al. Digital holography applied to microscopy [C]∥ Practical Holography XVI and Holographic Materials VIII. San Jose, CA, USA:\ [s.n.\], 2002: 30-34.
[9] COPPOLA G, FERRARO P, IODICE M, et al. A digital holographic microscope for complete characterization of microelectromechanical systems [J]. Measurement Science and Technology, 2004, 15(3): 529-539.
[10] GARCIASUCERQUIA J, XU W, JERICHO S K, et al. Digital inline holographic microscopy applied to microfluidic studies [C]∥ Microfluidics, BioMEMS, and Medical Microsystems IV. San Jose, CA, USA:\ [s.n.\], 2006: 61120M-9.
[11] KIM S,LEE S J. Measurement of dean flow in a curved microtube using micro digital holographic particle tracking velocimetry [J]. Experiments in Fluids, 2009, 46(2): 255-264.
[12] SORIA J,ATKINSON C. Towards 3C3D digital holographic fluid velocity vector field measurementtomographic digital holographic PIV(TomoHPIV) [J]. Measurement Science and Technology, 2008, 19(7): 074002.
[13] SHENG J, MALKEIL E,KATZ J. Using digital holographic microscopy for simultaneous measurements of 3D near wall velocity and wall shear stress in a turbulent boundary layer [J]. Experiments in Fluids, 2008, 45(6):1023-1035.
[14] YU L, MOHANTY S, ZHANG J, et al. Digital holographic microscopy for quantitative cell dynamic evaluation during laser microsurgery [J]. Optics Express, 2009, 17(14): 12031-12038.
[15] CHOI YS,LEE SJ. Threedimensional volumetric measurement of red blood cell motion using digital holographic microscopy [J]. Applied Optics, 2009, 48(16): 2983-2990.
[16] EMERY Y, CUCHE E, COLOMB T, et al. DHM (Digital Holography Microscope) for imaging cells [J]. Journal of Physics: Conference Series, 2007, 61:1317-1321.
[17] EMERY Y, CUCHE E, MARQUET F, et al. Digital holography microscopy (DHM): fast and robust systems for industrial inspection with interferometer resolution [C]∥ Optical Measurement Systems for Industrial Inspection IV. Munich, Germany:\ [s.n.\], 2005: 930-937.
[18] WU X C, GR HAN G, MEUNIERGUTTINCLUZEL S, et al. Sizing of particles smaller than 5 μm in digital holographic microscopy [J]. Optics Letters, 2009, 34(7): 857-859.
[19] WU X C, GR HAN G, MEUNIERGUTTINCLUZEL S, et al. Numerical investigation of nearfield offaxis scattering inline recording particle holography [C]∥ 15th Int Symp on Applications of Laser Techniques to Fluid Mechanics. Lisbon, Portugal:\ [s.n.\], 2010.
[20] ZHANG Y, SHEN G, SCHRODER A, et al. Influence of some recording parameters on digital holographic particle image velocimetry [J]. Optical Engineering, 2006, 45(7): 075801-10.
[21] GOUESBET G, MAHEU B,GREHAN G. Light scattering from a sphere arbitrarily located in a Gaussian beam, using a Bromwich formulation [J]. Journal of the Optical Society of America aOptics Image Science and Vision, 1988, 5(9): 1427-1443.
[22] SLIMANI F, GREHAN G, GOUESBET G, et al. Nearfield LorenzMie theory and its application to microholography [J]. Applied Optics, 1984, 23(22): 4140-4148.
[23] GREHAN G, WU X, MEUNIERGUTTINCLUZEL S, et al. Holographie et Microholographie : Un étalon numérique [C]∥ Congrès Francophone de Techniques Laser, CFTL 2010. VandoeuvrelèsNancy:\ [s.n.\], 2010.
[24] SCHNARS U,JUPTNER W. Direct recording of holograms by a CCDtarget and numerical reconstruction [J]. Applied Optics, 1994, 33(2): 179-181.
[25] SCHNARS U,JUPTNER W P O. Digital recording and numerical reconstruction of holograms [J]. Measurement Science & Technology, 2002, 13(9): R85-R101.
[26] LEBRUN D, BELAD S,ZKUL C. Hologram reconstruction by use of optical wavelet transform [J]. Applied Optics, 1999, 38(17): 3730-3734.
[27] BURAGALEFEBVRE C, COETMELLEC S, LEBRUN D, et al. Application of wavelet transform to hologram analysis: threedimensional location of particles [J]. Optics and Lasers in Engineering, 2000, 33(6): 409-421.
[28] CO TMELLEC S, LEBRUN D,ZKU C. Characterization of diffraction patterns directly from inline holograms with the fractional Fourier transform [J]. Applied Optics, 2002, 41(2): 312-319.
[29] 浦世亮. 基于激光干涉原理的颗粒场测量技术研究 [D]. 杭州: 浙江大学, 2007.
PU Shingliang. The study on particle field measurement based on laser interferometric [D]. Hangzhou: Zhejiang University, 2007.
[30] 吴学成, 浦世亮, 浦兴国, 等. 小波尺度参数对粒子场数字全息重建图像的影响 [J]. 光子学报, 2009, 38(11): 2963-2967.
WU Xuecheng, PU Shiliang, PU Xingguo, et al. Effects of scale parameter of wavelet on the numerical reconstruction of particle hologram [J]. Acta Photonica Sinica, 2009, 38(11): 2963-2967.
[31] PU S L, ALLANO D, PATTEROULAND B, et al. Particle field characterization by digital inline holography: 3D location and sizing [J]. Experiments in Fluids, 2005, 39(1): 1-9. |