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Three-dimensional magneto-optic trap for micro-object manipulation.

Three-dimensional magneto-optic trap for micro-object manipulation. A magneto-optic trap for micro-objects is described. Magnetic beads were trapped by optical tweezers while being rotated by a new integrated magnetic manipulator. Rotation was achieved with eight electromagnets with tip-pole geometry. The time orbital potential technique was used to achieve rotation of magnetic beads. Trapping in three dimensions and rotation of magnetic beads on three axes are demonstrated with forces up to 230 pN and force momenta of up to 10(-16)N m . A position-detection apparatus based on an interferometric scheme provides nanometer sensitivities in a few milliseconds. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Optics letters Pubmed

Three-dimensional magneto-optic trap for micro-object manipulation.

Sacconi, L; Romano, G; Ballerini, R; Capitanio, M; De Pas, M; Giuntini, M; Dunlap, D; Finzi, L; Pavone, F S
Optics letters , Volume 26 (17): -1297 – Oct 2, 2012
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Three-dimensional magneto-optic trap for micro-object manipulation.


Abstract

A magneto-optic trap for micro-objects is described. Magnetic beads were trapped by optical tweezers while being rotated by a new integrated magnetic manipulator. Rotation was achieved with eight electromagnets with tip-pole geometry. The time orbital potential technique was used to achieve rotation of magnetic beads. Trapping in three dimensions and rotation of magnetic beads on three axes are demonstrated with forces up to 230 pN and force momenta of up to 10(-16)N m . A position-detection apparatus based on an interferometric scheme provides nanometer sensitivities in a few milliseconds.

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ISSN
0146-9592
DOI
10.1364/ol.26.001359
pmid
18049608

Abstract

A magneto-optic trap for micro-objects is described. Magnetic beads were trapped by optical tweezers while being rotated by a new integrated magnetic manipulator. Rotation was achieved with eight electromagnets with tip-pole geometry. The time orbital potential technique was used to achieve rotation of magnetic beads. Trapping in three dimensions and rotation of magnetic beads on three axes are demonstrated with forces up to 230 pN and force momenta of up to 10(-16)N m . A position-detection apparatus based on an interferometric scheme provides nanometer sensitivities in a few milliseconds.

Journal

Optics lettersPubmed

Published: Oct 2, 2012

There are no references for this article.