Drift ratchet
- 1 January 2000
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review E
- Vol. 61 (1) , 312-323
- https://doi.org/10.1103/physreve.61.312
Abstract
We consider a silicon wafer, pierced by millions of identical pores with periodically varying diameters but without spatial inversion symmetry (ratchet profile). When a liquid is periodically pumped back and forth through the pores, our theory predicts a net transport of suspended micrometer-sized particles (drift ratchet). The direction of this particle current depends very sensitively on the size of the particles. For typical parameter values of the experiment, two different types of particles at an initially homogeneous 1:1 mixture are spatially separated with a purity beyond 1:1000 on a time scale of a few hours in comparably large quantities. This result is due to the highly parallel architecture of the device. The experimental realization of the setup, presently under construction, thus appears to be a promising new particle separation device, possibly superior to existing methods for particles sizes on the micrometer scale.Keywords
This publication has 41 references indexed in Scilit:
- Modeling molecular motorsReviews of Modern Physics, 1997
- Sorting of Brownian particles by the pulsed application of an asymmetric potentialPhysical Review E, 1997
- Criticism of Feynman’s analysis of the ratchet as an engineAmerican Journal of Physics, 1996
- Rectified motion of a mercury drop in an asymmetric structureEurophysics Letters, 1996
- Optical Thermal RatchetPhysical Review Letters, 1995
- Directional motion of brownian particles induced by a periodic asymmetric potentialNature, 1994
- Moving forward noisilyNature, 1994
- Fluctuation driven ratchets: Molecular motorsPhysical Review Letters, 1994
- Forced thermal ratchetsPhysical Review Letters, 1993
- Protein motors and Maxwell's demons: Does mechanochemical transduction involve a thermal ratchet?Advances in Biophysics, 1990