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The influence of carrier layer material in ultrasonic particle manipulation devices

The influence of carrier layer material in ultrasonic particle manipulation devices
The influence of carrier layer material in ultrasonic particle manipulation devices
The use of acoustic radiation forces for the manipulation of particles, bacteria and cells is drawing increasing interest. Resonators using quarter-wavelength sized fluid chambers have been developed, where an acoustic pressure node is positioned near the reflector layer surface such that particles may be pushed close to or onto this surface. The thickness of the reflector layer has already been shown to greatly influence the performance of such resonators. These devices have applications in bio-sensing where a concentrate of particulates can be collected or particulates can be contacted with a sensor surface directly.
A coupling layer is usually incorporated into the device and is located between the transducer and fluid layer. The ability of this layer to act as an acoustic matching layer depends on its acoustic properties and thickness. Here, the performance of various carrier layer materials in a near quarter-wavelength device is investigated and compared using modelled and experimental data. Results indicate that where the carrier layer thickness is selected for optimum performance, the resonator performance is comparable for most high Q factor carrier layer materials. However, for some materials the performance of the resonator, is highly sensitive to the coupling layer thicknesses and in turn can constrain the flexibility of the acoustic design.


acoustic radiation force, concentration, particles
148
Townsend, R.J.
0452b21c-a758-4d4a-925b-1511d9296d62
Hill, M.
0cda65c8-a70f-476f-b126-d2c4460a253e
Harris, N.R.
237cfdbd-86e4-4025-869c-c85136f14dfd
Townsend, R.J.
0452b21c-a758-4d4a-925b-1511d9296d62
Hill, M.
0cda65c8-a70f-476f-b126-d2c4460a253e
Harris, N.R.
237cfdbd-86e4-4025-869c-c85136f14dfd

Townsend, R.J., Hill, M. and Harris, N.R. (2007) The influence of carrier layer material in ultrasonic particle manipulation devices. International Congress on Ultrasonics (2007 ICU Vienna), , Vienna, Austria. 09 - 12 Apr 2007. p. 148 .

Record type: Conference or Workshop Item (Other)

Abstract

The use of acoustic radiation forces for the manipulation of particles, bacteria and cells is drawing increasing interest. Resonators using quarter-wavelength sized fluid chambers have been developed, where an acoustic pressure node is positioned near the reflector layer surface such that particles may be pushed close to or onto this surface. The thickness of the reflector layer has already been shown to greatly influence the performance of such resonators. These devices have applications in bio-sensing where a concentrate of particulates can be collected or particulates can be contacted with a sensor surface directly.
A coupling layer is usually incorporated into the device and is located between the transducer and fluid layer. The ability of this layer to act as an acoustic matching layer depends on its acoustic properties and thickness. Here, the performance of various carrier layer materials in a near quarter-wavelength device is investigated and compared using modelled and experimental data. Results indicate that where the carrier layer thickness is selected for optimum performance, the resonator performance is comparable for most high Q factor carrier layer materials. However, for some materials the performance of the resonator, is highly sensitive to the coupling layer thicknesses and in turn can constrain the flexibility of the acoustic design.


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More information

Published date: April 2007
Additional Information: Event Dates: April 9-12 2007
Venue - Dates: International Congress on Ultrasonics (2007 ICU Vienna), , Vienna, Austria, 2007-04-09 - 2007-04-12
Related URLs:
Keywords: acoustic radiation force, concentration, particles
Organisations: EEE

Identifiers

Local EPrints ID: 263880
URI: http://eprints.soton.ac.uk/id/eprint/263880
PURE UUID: 6740e101-1933-4f37-9a97-bba7a21a8ea4
ORCID for M. Hill: ORCID iD orcid.org/0000-0001-6448-9448
ORCID for N.R. Harris: ORCID iD orcid.org/0000-0003-4122-2219

Catalogue record

Date deposited: 17 Apr 2007
Last modified: 06 Mar 2024 02:35

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Contributors

Author: R.J. Townsend
Author: M. Hill ORCID iD
Author: N.R. Harris ORCID iD

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