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      Feynman's ratchet and pawl: an exactly solvable model

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          Abstract

          We introduce a simple, discrete model of Feynman's ratchet and pawl, operating between two heat reservoirs. We solve exactly for the steady-state directed motion and heat flows produced, first in the absence and then in the presence of an external load. We show that the model can act both as a heat engine and as a refrigerator. We finally investigate the behavior of the system near equilibrium, and use our model to confirm general predictions based on linear response theory.

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          Forced thermal ratchets.

          Marcelo O. Magnasco (1993)
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            Fluctuation driven ratchets: Molecular motors.

            R Dean Astumian, Martin Bier (1994)
            Article 0 comments Cited 211 times – based on 0 reviews     Review now
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              Thermodynamics and kinetics of a Brownian motor.

              R D Astumian (1997)
              Nonequilibrium fluctuations, whether generated externally or by a chemical reaction far from equilibrium, can bias the Brownian motion of a particle in an anisotropic medium without thermal gradients, a net force such as gravity, or a macroscopic electric field. Fluctuation-driven transport is one mechanism by which chemical energy can directly drive the motion of particles and macromolecules and may find application in a wide variety of fields, including particle separation and the design of molecular motors and pumps.
              Article 0 comments Cited 195 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Publication date Created: 03 February 1999
                Publication date Updated: 1999-06-16
                Article
                DOI: 10.1103/PhysRevE.59.6448
                ArXiV ID: cond-mat/9902056
                SO-VID: 79e06feb-21ba-450e-979e-1d65c5cc2ce3
                History
                Custom metadata
                Report No LAUR-99-568
                Journal reference Phys.Rev.E 59, 6448 (1999)
                Comments 19 pages + 10 figures; somewhat tighter presentation
                Categories cond-mat.stat-mech

                ScienceOpen disciplines: Condensed matter
                Data availability:
                ScienceOpen disciplines: Condensed matter

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