Electrodynamic ratchet motor
- Creators
- Lim, Jiufu
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Sader, John E.
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Mulvaney, Paul
Abstract
Brownian ratchets produce directed motion through rectification of thermal fluctuations and have been used for separation processes and colloidal transport. We propose a flashing ratchet motor that enables the transduction of electrical energy into rotary micromechanical work. This is achieved through torque generation provided by boundary shaping of equipotential surfaces. The present device contrasts to previous implementations that focus on translational motion. Stochastic simulations elucidate the performance characteristics of this device as a function of its geometry. Miniaturization to nanoscale dimensions yields rotational speeds in excess of 1 kHz, which is comparable to biomolecular motors of similar size.
Copyright and License
© 2009 American Physical Society.
Acknowledgement
P.M. and J.E.S. acknowledge support from the Australian Research Council through the Discovery Grants Scheme. J.L. thanks the Albert Shimmins Fund for support.
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Additional details
- ISSN
- 1550-2376
- Australian Research Council
- University of Melbourne