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Particle-Size Effect in Airborne Standing-Wave Acoustic Levitation: Trapping Particles at Pressure Antinodes

Article dans une revue avec comité de lecture
Author
PAZOS OSPINA, Jhon F.
CONTRERAS, Victor
ESTRADA-MORALES, Jordan
ccBARESCH, Diego
1002421 Institut de Mécanique et d'Ingénierie de Bordeaux [I2M]
EALO, Joao Luis
VOLKE-SEPÚLVEDA, Karen

URI
http://hdl.handle.net/10985/23121
DOI
10.1103/physrevapplied.18.034026
Date
2022-09-12
Journal
Physical Review Applied

Abstract

It is well known that a particle put into an ultrasonic standing wave tends to move towards an equilibrium position, where the acoustic pressure-induced force on its surface compensates the particle weight. We demonstrate, by means of a full three-dimensional numerical analysis and a thorough experimental study, that the acoustic force, and thus the particle’s behavior, critically depends on its size. While particles within certain size ranges, including those smaller than half the wavelength, are trapped on axis around the pressure nodes, particles in other size ranges are trapped off axis nearby the pressure antinodes. This behavior, related with sign inversions of the radiation force, implies that the magnitude of the force, and thus the trapping stiffness, can be maximum or null for some specific sizes. As a case of study, we analyze expanded polystyrene particles levitated in air with an ultrasonic frequency of 40 kHz, a relevant system due to recent applications for the development of volumetric displays. Yet, our results illustrate a general behavior of radiation-based traps with structured wave fields.

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