Miniaturized high-NA focusing-mirror multiple optical tweezers

An array of high numerical aperture parabolic micromirrors (NA = 0.96) is used to generate multiple optical tweezers and to trap micron-sized dielectric particles in three dimensions within a fluidic device. The array of micromirrors allows generating arbitrarily large numbers of 3D traps, since the...

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Veröffentlicht in:	Optics express 2007-05, Vol.15 (10), p.6075-6086
Hauptverfasser:	Merenda, Fabrice, Rohner, Johann, Fournier, Jean-Marc, Salathé, René-Paul
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Sprache:	eng
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creator	Merenda, Fabrice Rohner, Johann Fournier, Jean-Marc Salathé, René-Paul
description	An array of high numerical aperture parabolic micromirrors (NA = 0.96) is used to generate multiple optical tweezers and to trap micron-sized dielectric particles in three dimensions within a fluidic device. The array of micromirrors allows generating arbitrarily large numbers of 3D traps, since the whole trapping area is not restricted by the field-of-view of the high-NA microscope objectives used in traditional tweezers arrangements. Trapping efficiencies of Q(max) r approximately = 0.22, comparable to those of conventional tweezers, have been measured. Moreover, individual fluorescence light from all the trapped particles can be collected simultaneously with the high-NA of the micromirrors. This is demonstrated experimentally by capturing more than 100 fluorescent micro-beads in a fluidic environment. Micromirrors may easily be integrated in microfluidic devices, offering a simple and very efficient solution for miniaturized optical traps in lab-on-a-chip devices.
doi_str_mv	10.1364/oe.15.006075
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title	Miniaturized high-NA focusing-mirror multiple optical tweezers
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