Combined acoustic and optical trapping
Combined acoustic and optical trapping
Combining several methods for contact free micro-manipulation of small particles such as cells or micro-organisms provides the advantages of each method in a single setup. Optical tweezers, which employ focused laser beams, offer very precise and selective handling of single particles. On the other hand, acoustic trapping with wavelengths of about 1 mm allows the simultaneous trapping of many, comparatively large particles. With conventional approaches it is difficult to fully employ the strengths of each method due to the different experimental requirements. Here we present the combined optical and acoustic trapping of motile micro-organisms in a microfluidic environment, utilizing optical macro-tweezers, which offer a large field of view and working distance of several millimeters and therefore match the typical range of acoustic trapping. We characterize the acoustic trapping forces with the help of optically trapped particles and present several applications of the combined optical and acoustic trapping, such as manipulation of large (75 ?m) particles and active particle sorting.
© 2011 OSA
ultrasound, laser trapping, optical confinement and manipulation, optical tweezers or optical manipulation
2859-2870
Thalhammer, G.
56c9805f-8d75-497e-8a70-df614438875c
Steiger, R.
2e856960-17db-4b15-9218-bc329b2de994
Meinschad, M.
93a7962f-556a-4436-b0a4-ee2acc28507d
Hill, M.
0cda65c8-a70f-476f-b126-d2c4460a253e
Bernet, S.
594783bd-f062-4cdf-9bb4-817d47f5bf26
Ritsch-Marte, M.
f27ceb4d-4e98-4d97-93f0-9f676aa1c8e1
27 September 2011
Thalhammer, G.
56c9805f-8d75-497e-8a70-df614438875c
Steiger, R.
2e856960-17db-4b15-9218-bc329b2de994
Meinschad, M.
93a7962f-556a-4436-b0a4-ee2acc28507d
Hill, M.
0cda65c8-a70f-476f-b126-d2c4460a253e
Bernet, S.
594783bd-f062-4cdf-9bb4-817d47f5bf26
Ritsch-Marte, M.
f27ceb4d-4e98-4d97-93f0-9f676aa1c8e1
Thalhammer, G., Steiger, R., Meinschad, M., Hill, M., Bernet, S. and Ritsch-Marte, M.
(2011)
Combined acoustic and optical trapping.
Biomedical Optics Express, 2 (10), .
(doi:10.1364/BOE.2.002859).
Abstract
Combining several methods for contact free micro-manipulation of small particles such as cells or micro-organisms provides the advantages of each method in a single setup. Optical tweezers, which employ focused laser beams, offer very precise and selective handling of single particles. On the other hand, acoustic trapping with wavelengths of about 1 mm allows the simultaneous trapping of many, comparatively large particles. With conventional approaches it is difficult to fully employ the strengths of each method due to the different experimental requirements. Here we present the combined optical and acoustic trapping of motile micro-organisms in a microfluidic environment, utilizing optical macro-tweezers, which offer a large field of view and working distance of several millimeters and therefore match the typical range of acoustic trapping. We characterize the acoustic trapping forces with the help of optically trapped particles and present several applications of the combined optical and acoustic trapping, such as manipulation of large (75 ?m) particles and active particle sorting.
© 2011 OSA
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Submitted date: 18 August 2011
Published date: 27 September 2011
Keywords:
ultrasound, laser trapping, optical confinement and manipulation, optical tweezers or optical manipulation
Organisations:
Mechatronics
Identifiers
Local EPrints ID: 198257
URI: http://eprints.soton.ac.uk/id/eprint/198257
ISSN: 2156-7085
PURE UUID: c6cfc281-abd2-470f-9330-e9902a794769
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Date deposited: 04 Oct 2011 10:43
Last modified: 15 Mar 2024 02:42
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Contributors
Author:
G. Thalhammer
Author:
R. Steiger
Author:
M. Meinschad
Author:
S. Bernet
Author:
M. Ritsch-Marte
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