Single-bottleneck approximation for driven lattice gases with disorder and open boundary conditions
Single-bottleneck approximation for driven lattice gases with disorder and open boundary conditions
We investigate the effects of disorder on driven lattice gases with open boundaries using the totally asymmetric simple exclusion process as a paradigmatic example. Disorder is realized by randomly distributed defect sites with reduced hopping rate. In contrast to equilibrium, even macroscopic quantities in disordered non-equilibrium systems depend sensitively on the defect sample. We study the current as a function of the entry and exit rates and the realization of disorder and find that it is, in leading order, determined by the longest stretch of consecutive defect sites (single-bottleneck approximation, SBA). Using results from extreme value statistics the SBA allows us to study ensembles with fixed defect density which gives accurate results, e.g. for the expectation value of the current. Corrections to SBA come from effective
(2008) P04009
interactions of bottlenecks close to the longest one. Defects close to the boundaries can be described by effective boundary rates and lead to shifts of the phase transitions. Finally it is shown that the SBA also works for more complex models. As an example we discuss a model with internal states that has been proposed to describe transport of the kinesin KIF1A
N/A
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Schadschneider, Andreas
0d373623-9b5e-4c8a-874f-a620bf7a34f6
9 April 2008
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Schadschneider, Andreas
0d373623-9b5e-4c8a-874f-a620bf7a34f6
Greulich, Philip and Schadschneider, Andreas
(2008)
Single-bottleneck approximation for driven lattice gases with disorder and open boundary conditions.
Journal of Statistical Mechanics: Theory and Experiment, N/A, , [P04009].
Abstract
We investigate the effects of disorder on driven lattice gases with open boundaries using the totally asymmetric simple exclusion process as a paradigmatic example. Disorder is realized by randomly distributed defect sites with reduced hopping rate. In contrast to equilibrium, even macroscopic quantities in disordered non-equilibrium systems depend sensitively on the defect sample. We study the current as a function of the entry and exit rates and the realization of disorder and find that it is, in leading order, determined by the longest stretch of consecutive defect sites (single-bottleneck approximation, SBA). Using results from extreme value statistics the SBA allows us to study ensembles with fixed defect density which gives accurate results, e.g. for the expectation value of the current. Corrections to SBA come from effective
(2008) P04009
interactions of bottlenecks close to the longest one. Defects close to the boundaries can be described by effective boundary rates and lead to shifts of the phase transitions. Finally it is shown that the SBA also works for more complex models. As an example we discuss a model with internal states that has been proposed to describe transport of the kinesin KIF1A
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Published date: 9 April 2008
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Applied Mathematics
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Local EPrints ID: 412056
URI: http://eprints.soton.ac.uk/id/eprint/412056
PURE UUID: d320fbed-3cdc-4d9a-856a-0a2dbbef075c
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Date deposited: 05 Jul 2017 16:31
Last modified: 09 Jan 2022 03:45
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Andreas Schadschneider
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