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Mean acoustic fields exerted on a subwavelength axisymmetric particle

Everton B. Lima, Glauber T. Silva

2021The Journal of the Acoustical Society of America18 citationsDOIOpen Access PDF

Abstract

The acoustic radiation force produced by ultrasonic waves is the "workhorse" of particle manipulation in acoustofluidics. Nonspherical particles are also subjected to a mean torque known as the acoustic radiation torque. Together they constitute the mean acoustic fields exerted on the particle. Analytical methods alone cannot calculate these fields on arbitrarily shaped particles in actual fluids and are no longer fit for purpose. Here, a semi-analytical approach is introduced for handling subwavelength axisymmetric particles immersed in an isotropic Newtonian fluid. The obtained mean acoustic fields depend on the scattering coefficients that reflect the monopole and dipole modes. These coefficients are determined by numerically solving the scattering problem. Our method is benchmarked by comparison with the exact result for a subwavelength rigid sphere in water. Besides, a more realistic case of a red blood cell immersed in blood plasma under a standing ultrasonic wave is investigated with our methodology.

Topics & Concepts

PhysicsAcoustic radiation forceScatteringIsotropyAcoustic waveRotational symmetrySPHERESOpticsClassical mechanicsParticle (ecology)DipoleMagnetic monopoleAcoustic radiationUltrasonic sensorDiscrete dipole approximationAcousticsMechanicsIsotropic solidNewtonian fluidMagnetic fieldRadiationComputational physicsMagnetic dipoleRadiation pressureElectromagnetic radiationAcoustic levitationAcoustic wave equationCylinderT-matrix methodPhysical acousticsLight scatteringScattering theoryTorquePlasmaField (mathematics)Exact solutions in general relativityMaxwell's equationsMicrofluidic and Bio-sensing TechnologiesElectrostatics and Colloid InteractionsBlood properties and coagulation
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