Resonance Shift of Single-Axis Acoustic Levitation
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Abstract
The resonance shift due to the presence and movement of a rigid spherical sample in a single-axis acoustic levitator is studied with the boundary element method on the basis of a two-cylinder model of the levitator. The introduction of a sample into the sound pressure nodes, where it is usually levitated, reduces the resonant interval Hn (n is the mode number) between the reflector and emitter. The larger the sample radius, the greater the resonance shift. When the sample moves along the symmetric axis, the resonance interval Hn varies in an approximately periodical manner, which reaches the minima near the pressure nodes and the maxima near the pressure antinodes. This suggests a resonance interval oscillation around its minimum if the stably levitated sample is slightly perturbed. The dependence of the resonance shift on the sample radius R and position h for the single-axis acoustic levitator is compared with Leung’s theory for a closed rectangular chamber, which shows a good agreement.
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Cite this article:
XIE Wen-Jun, WEI Bing-Bo. Resonance Shift of Single-Axis Acoustic Levitation[J]. Chin. Phys. Lett., 2007, 24(1): 135-138.
XIE Wen-Jun, WEI Bing-Bo. Resonance Shift of Single-Axis Acoustic Levitation[J]. Chin. Phys. Lett., 2007, 24(1): 135-138.
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XIE Wen-Jun, WEI Bing-Bo. Resonance Shift of Single-Axis Acoustic Levitation[J]. Chin. Phys. Lett., 2007, 24(1): 135-138.
XIE Wen-Jun, WEI Bing-Bo. Resonance Shift of Single-Axis Acoustic Levitation[J]. Chin. Phys. Lett., 2007, 24(1): 135-138.
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