Publikation: Directing Brownian motion by oscillating barriers
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We consider the Brownian motion of a colloidal particle in a symmetric, periodic potential, whose potential barriers are subjected to temporal oscillations. Experimentally, the potential is generated by two arrays of trapped, negatively charged particles whose positions are periodically modulated with light forces. This results in a structured channel geometry of locally variable width. If all potential barriers are oscillating in synchrony, a resonance-like peak of the effective diffusion coefficient upon variation of the oscillation period is observed. For asynchronously oscillating barriers, the particle can be steered with great reliability into one or the other direction by properly choosing the oscillation periods of the different barriers along the channel.
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BLEIL, Stefan, P. REIMANN, Clemens BECHINGER, 2007. Directing Brownian motion by oscillating barriers. In: Physical Review E. 2007, 75(3), 031117. ISSN 1539-3755. eISSN 1550-2376. Available under: doi: 10.1103/PhysRevE.75.031117BibTex
@article{Bleil2007-03-26Direc-39210, year={2007}, doi={10.1103/PhysRevE.75.031117}, title={Directing Brownian motion by oscillating barriers}, number={3}, volume={75}, issn={1539-3755}, journal={Physical Review E}, author={Bleil, Stefan and Reimann, P. and Bechinger, Clemens}, note={Article Number: 031117} }
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