Holographic optical tweezers have found many applications including the construction of complex micron-scale 3D structures and the control of tools and probes for position, force, and viscosity measurement. We have developed a compact, stable, holographic optical tweezers instrument which can be easily transported and is compatible with a wide range of microscopy techniques, making it a valuable tool for collaborative research. The instrument measures approximately 30×30×35 cm and is designed around a custom inverted microscope, incorporating a fibre laser operating at 1070 nm. We designed the control software to be easily accessible for the non-specialist, and have further improved its ease of use with a multi-touch iPad interface. A high-speed camera allows multiple trapped objects to be tracked simultaneously. We demonstrate that the compact instrument is stable to 0.5 nm for a 10 s measurement time by plotting the Allan variance of the measured position of a trapped 2 μm silica bead. We also present a range of objects that have been successfully manipulated.
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November 2012
Research Article|
November 28 2012
A compact holographic optical tweezers instrument
G. M. Gibson;
G. M. Gibson
a)
1School of Physics and Astronomy, SUPA,
University of Glasgow G12 8QQ
, United Kingdom
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R. W. Bowman;
R. W. Bowman
1School of Physics and Astronomy, SUPA,
University of Glasgow G12 8QQ
, United Kingdom
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A. Linnenberger;
A. Linnenberger
2
Boulder Nonlinear Systems
, 450 Courtney Way, 107 Lafayette, Colorado 80026, USA
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M. Dienerowitz;
M. Dienerowitz
1School of Physics and Astronomy, SUPA,
University of Glasgow G12 8QQ
, United Kingdom
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D. B. Phillips;
D. B. Phillips
3H. H. Wills Physics Laboratory,
University of Bristol BS8 1TL
, United Kingdom
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D. M. Carberry;
D. M. Carberry
3H. H. Wills Physics Laboratory,
University of Bristol BS8 1TL
, United Kingdom
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M. J. Miles;
M. J. Miles
3H. H. Wills Physics Laboratory,
University of Bristol BS8 1TL
, United Kingdom
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M. J. Padgett
M. J. Padgett
1School of Physics and Astronomy, SUPA,
University of Glasgow G12 8QQ
, United Kingdom
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a)
Electronic mail: Graham.Gibson@glasgow.ac.uk. URL: www.gla.ac.uk/schools/physics/research/groups/optics/.
Rev. Sci. Instrum. 83, 113107 (2012)
Article history
Received:
August 06 2012
Accepted:
November 03 2012
Citation
G. M. Gibson, R. W. Bowman, A. Linnenberger, M. Dienerowitz, D. B. Phillips, D. M. Carberry, M. J. Miles, M. J. Padgett; A compact holographic optical tweezers instrument. Rev. Sci. Instrum. 1 November 2012; 83 (11): 113107. https://doi.org/10.1063/1.4768303
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