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Regulating Brownian fluctuations with tunable microscopic magnetic traps.


ABSTRACT: A major challenge to achieving positional control of fluid borne submicron sized objects is regulating their Brownian fluctuations. We present a magnetic-field-based trap that regulates the thermal fluctuations of superparamagnetic beads in suspension. Local domain-wall fields originating from patterned magnetic wires, whose strength and profile are tuned by weak external fields, enable the bead trajectories within the trap to be managed and easily varied between strong confinements and delocalized spatial excursions that are described remarkably well by simulations.

SUBMITTER: Chen A 

PROVIDER: S-EPMC3896074 | biostudies-literature | 2011 Aug

REPOSITORIES: biostudies-literature

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Regulating Brownian fluctuations with tunable microscopic magnetic traps.

Chen A A   Vieira G G   Henighan T T   Howdyshell M M   North J A JA   Hauser A J AJ   Yang F Y FY   Poirier M G MG   Jayaprakash C C   Sooryakumar R R  

Physical review letters 20110818 8


A major challenge to achieving positional control of fluid borne submicron sized objects is regulating their Brownian fluctuations. We present a magnetic-field-based trap that regulates the thermal fluctuations of superparamagnetic beads in suspension. Local domain-wall fields originating from patterned magnetic wires, whose strength and profile are tuned by weak external fields, enable the bead trajectories within the trap to be managed and easily varied between strong confinements and delocali  ...[more]

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