A method is proposed for calculating the wideband signals from sources placed on a hemisphere to create an ultrasonic field distribution in air which ensures the deposition of trapped particles in a given area. The particle settling trajectory is set in the form of the curve the starting point of which is in the particle supply area, and its end point is on the surface where particle settling is required. A phase vortex field is formed around the deposition trajectory, so that the particles tend to the center of the vortex and fall down due to the gravity force. The vortex field is formed by a linear frequency modulation signal with increasing frequency to ensure that the particles are pulled into the center of the vortex if the particle deviates from the given trajectory. Synthesis of sources is carried out by back propagation of waves in a wide frequency band. The results of numerical simulation are presented.
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Sukhanov, D.Y., Kuzovova, A.E., Roslyakov, S.N. et al. Controlled Deposition of Particles in the Vortex Ultrasonic Field of a Hemispherical Source Array. Russ Phys J 66, 585–590 (2023). https://doi.org/10.1007/s11182-023-02979-0
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DOI: https://doi.org/10.1007/s11182-023-02979-0