Morphing Surfaces Enable Acoustophoretic Contactless Transport of Ultrahigh-Density Matter in Air

The controlled contactless transport of heavy drops and particles in air is of fundamental interest and has significant application potential. Acoustic forces do not rely on special material properties, but their utility in transporting heavy matter in air has been restricted by low power and poor c...

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Veröffentlicht in:	Scientific reports 2013-11, Vol.3 (1), p.3176-3176, Article 3176
Hauptverfasser:	Foresti, Daniele, Sambatakakis, Giorgio, Bottan, Simone, Poulikakos, Dimos
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Schlagworte:	639/166/988 639/301/923 639/766/189 639/766/25 Acoustics Deformation Geometry Humanities and Social Sciences multidisciplinary Radiation Science Surface tension Velocity
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creator	Foresti, Daniele Sambatakakis, Giorgio Bottan, Simone Poulikakos, Dimos
description	The controlled contactless transport of heavy drops and particles in air is of fundamental interest and has significant application potential. Acoustic forces do not rely on special material properties, but their utility in transporting heavy matter in air has been restricted by low power and poor controllability. Here we present a new concept of acoustophoresis, based on the morphing of a deformable reflector, which exploits the low reaction forces and low relaxation time of a liquid with enhanced surface tension through the use of thin overlaid membrane. An acoustically induced, mobile deformation (dimple) on the reflector surface enhances the acoustic field emitted by a line of discretized emitters and enables the countinuos motion of heavy levitated samples. With such interplay of emitters and reflecting soft-structure, a 5 mm steel sphere (0.5 grams) was contactlessly transported in air solely by acoustophoresis.
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subjects	639/166/988 639/301/923 639/766/189 639/766/25 Acoustics Deformation Geometry Humanities and Social Sciences multidisciplinary Radiation Science Surface tension Velocity
title	Morphing Surfaces Enable Acoustophoretic Contactless Transport of Ultrahigh-Density Matter in Air
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