S. M. Hagsäter scite author profile

We show that full-image micro-PIV analysis in combination with images of transient particle motion is a powerful tool for experimental studies of acoustic radiation forces and acoustic streaming in microfluidic chambers under piezo-actuation in the MHz range. The measured steady-state motion of both large 5 microm and small 1 microm particles can be understood in terms of the acoustic eigenmodes or standing ultra-sound waves in the given experimental microsystems. This interpretation is supported by numerical solutions of the corresponding acoustic wave equation.

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Spatial confinement of ultrasonic force fields in microfluidic channels

Manneberg

Hagsäter

Svennebring

et al. 2009

Ultrasonics

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Acoustic resonances in straight micro channels: Beyond the 1D-approximation

et al. 2008

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Acoustic actuation can be used to perform several tasks in microfluidic systems. In this paper, we investigate an acoustic separator through micro-PIV analysis in stop-flow mode and numerical simulations, and a good agreement between the two is found. Moreover, we demonstrate that it is not sufficient only to characterize devices in flow-through mode, since in these systems much different resonant patterns can result in similarly looking band formations. Furthermore, we conclude that extended 1D approximations of the acoustic radiation force are inadvisable, and instead, a 2D model is preferred. The results presented here provide valuable insight into the nature and functionality of acoustic microdevices, and should be useful in the interpretation and understanding of the same.

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Investigations on LED illumination for micro-PIV including a novel front-lit configuration

et al. 2007

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A compact viewing configuration for stereoscopic micro-PIV utilizing mm-sized mirrors

et al. 2008

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S. M. Hagsäter

Acoustic resonances in microfluidic chips: full-image micro-PIV experiments and numerical simulations

Spatial confinement of ultrasonic force fields in microfluidic channels

Acoustic resonances in straight micro channels: Beyond the 1D-approximation

Investigations on LED illumination for micro-PIV including a novel front-lit configuration

A compact viewing configuration for stereoscopic micro-PIV utilizing mm-sized mirrors

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