Inter-Particle Effects with a Large Population in Acoustofluidics

• Main Authors: Kun Jia, Yulong Wang, Liqiang Li, Jian Chen, Keji Yang
• Format: Article
• Language: English
• Published: MDPI AG 2020-10-01
• Series: Actuators
• Subjects: acoustic radiation force; secondary force; acoustic interaction; particle agglomeration
• Online Access: https://www.mdpi.com/2076-0825/9/4/101

The ultrasonic manipulation of cells and bioparticles in a large population is a maturing technology. There is an unmet demand for improved theoretical understanding of the particle–particle interactions at a high concentration. In this study, a semi-analytical method combining the Jacobi–Anger expansion and two-dimensional finite element solution of the scattering problem is proposed to calculate the acoustic radiation forces acting on massive compressible particles. Acoustic interactions on arrangements of up to several tens of particles are investigated. The particle radius ranges from the Rayleigh scattering limit (ka«1) to the Mie scattering region (ka≈1). The results show that the oscillatory spatial distribution of the secondary radiation force is related to the relative size of co-existing particles, not the absolute value (for particles with the same radius). In addition, the acoustic interaction is non-transmissible for a group of identical particles. For a large number of equidistant particles arranged along a line, the critical separation distance for the attraction force decreases as the number of particles increases, but eventually plateaus (for 16 particles). The range of attraction for the formed cluster is stabilized when the number of aggregated particles reaches a certain value.