相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Synthetic image generator for defocusing and astigmatic PIV/PTV
Massimiliano Rossi
MEASUREMENT SCIENCE AND TECHNOLOGY (2020)
Nonuniform Electro-osmotic Flow Drives Fluid-Structure Instability
Evgeniy Boyko et al.
PHYSICAL REVIEW LETTERS (2020)
Gradient acoustic focusing of sub-micron particles for separation of bacteria from blood lysate
David Van Assche et al.
SCIENTIFIC REPORTS (2020)
General defocusing particle tracking: fundamentals and uncertainty assessment
Rune Barnkob et al.
EXPERIMENTS IN FLUIDS (2020)
Microparticle Acoustophoresis in Aluminum-Based Acoustofluidic Devices with PDMS Covers
William Naundrup Bode et al.
MICROMACHINES (2020)
Acoustofluidic closed-loop control of microparticles and cells using standing surface acoustic waves
Tan Dai Nguyen et al.
SENSORS AND ACTUATORS B-CHEMICAL (2020)
Recent advances in single cell manipulation and biochemical analysis on microfluidics
Dan Gao et al.
ANALYST (2019)
Acoustofluidic particle steering
Zaid Shaglwf et al.
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA (2019)
Experimental Characterization of Acoustic Streaming in Gradients of Density and Compressibility
Wei Qiu et al.
PHYSICAL REVIEW APPLIED (2019)
Interfacial flows in sessile evaporating droplets of mineral water
Massimiliano Rossi et al.
PHYSICAL REVIEW E (2019)
Acoustic Streaming and Its Suppression in Inhomogeneous Fluids
Jonas T. Karlsen et al.
PHYSICAL REVIEW LETTERS (2018)
Acoustically Driven Fluid and Particle Motion in Confined and Leaky Systems
Rune Barnkob et al.
PHYSICAL REVIEW APPLIED (2018)
Size Control of Sessile Microbubbles for Reproducibly Driven Acoustic Streaming
Andreas Volk et al.
PHYSICAL REVIEW APPLIED (2018)
General defocusing particle tracking
Rune Barnkob et al.
LAB ON A CHIP (2015)
Forces acting on a small particle in an acoustical field in a thermoviscous fluid
Jonas T. Karlsen et al.
PHYSICAL REVIEW E (2015)
High-throughput 3D tracking of bacteria on a standard phase contrast microscope
K. M. Taute et al.
NATURE COMMUNICATIONS (2015)
Iterative reconstruction of volumetric particle distribution
Bernhard Wieneke
MEASUREMENT SCIENCE AND TECHNOLOGY (2013)
Comparison of Tomo-PIV and 3D-PTV for microfluidic flows
Hyoungsoo Kim et al.
MEASUREMENT SCIENCE AND TECHNOLOGY (2013)
Ultrasound-induced acoustophoretic motion of microparticles in three dimensions
P. B. Muller et al.
PHYSICAL REVIEW E (2013)
On the effect of particle image intensity and image preprocessing on the depth of correlation in micro-PIV
Massimiliano Rossi et al.
EXPERIMENTS IN FLUIDS (2012)
High-throughput, temperature-controlled microchannel acoustophoresis device made with rapid prototyping
Jonathan D. Adams et al.
JOURNAL OF MICROMECHANICS AND MICROENGINEERING (2012)
Particle imaging techniques for volumetric three-component (3D3C) velocity measurements in microfluidics
C. Cierpka et al.
JOURNAL OF VISUALIZATION (2012)
Acoustic radiation- and streaming-induced microparticle velocities determined by microparticle image velocimetry in an ultrasound symmetry plane
Rune Barnkob et al.
PHYSICAL REVIEW E (2012)
On the calibration of astigmatism particle tracking velocimetry for microflows
C. Cierpka et al.
MEASUREMENT SCIENCE AND TECHNOLOGY (2011)
Measuring the local pressure amplitude in microchannel acoustophoresis
Rune Barnkob et al.
LAB ON A CHIP (2010)
A simple single camera 3C3D velocity measurement technique without errors due to depth of correlation and spatial averaging for microfluidics
C. Cierpka et al.
MEASUREMENT SCIENCE AND TECHNOLOGY (2010)
XPIV-multi-plane stereoscopic particle image velocimetry
A Liberzon et al.
EXPERIMENTS IN FLUIDS (2004)
Particle velocity field measurements in a near-wall flow using evanescent wave illumination
CM Zettner et al.
EXPERIMENTS IN FLUIDS (2003)
Holographic particle image velocimetry
KD Hinsch
MEASUREMENT SCIENCE AND TECHNOLOGY (2002)
Theoretical analysis of the measurement precision in particle image velocimetry
J Westerweel
EXPERIMENTS IN FLUIDS (2000)
Defocusing digital particle image velocimetry: a 3-component 3-dimensional DPIV measurement technique. Application to bubbly flows
F Pereira et al.
EXPERIMENTS IN FLUIDS (2000)