Acoustic dipole and monopole effects in solid particle interaction dynamics during acoustophoresis

(2019) Acoustic dipole and monopole effects in solid particle interaction dynamics during acoustophoresis. Journal of the Acoustical Society of America. pp. 3311-3319. ISSN 0001-4966

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Official URL: WOS:000474603700029

Abstract

A method is presented for measurements of secondary acoustic radiation forces acting on solid particles in a plain ultrasonic standing wave. The method allows for measurements of acoustic interaction forces between particles located in arbitrary positions such as in between a pressure node and a pressure antinode. By utilizing a model that considers both density- and compressibility-dependent effects, the observed particle-particle interaction dynamics can be well understood. Two differently sized polystyrene micro-particles (4.8 and 25 mu m, respectively) were used in order to achieve pronounced interaction effects. The particulate was subjected to a 2-MHz ultrasonic standing wave in a microfluidic channel, such as commonly used for acoustophoresis. Observation of deflections in the particle pathways shows that the particle interaction force is not negligible under this circumstance and has to be considered in accurate particle manipulation applications. The effect is primarily pronounced when the distance between two particles is small, the sizes of the particles are different, and the acoustic properties of the particles are different relative to the media. As predicted by theory, the authors also observe that the interaction forces are affected by the angle between the inter-particle centerline and the axis of the standing wave propagation direction.

Item Type: Article
Keywords: bjerknes forces lubrication force 2 bubbles manipulation cells separation spheres bacteria blood fluid Acoustics Audiology & Speech-Language Pathology
Subjects: QT Physiology
Divisions: Cardiovascular Research Institute > Applied Physiology Research Center
Faculty of Medicine > Department of Basic Science > Department of Physiology
Page Range: pp. 3311-3319
Journal or Publication Title: Journal of the Acoustical Society of America
Journal Index: ISI
Volume: 145
Number: 6
Identification Number: https://doi.org/10.1121/1.5110303
ISSN: 0001-4966
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/11375

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