Mixed population of competing totally asymmetric simple exclusion processes with a shared reservoir of particles
Mixed population of competing totally asymmetric simple exclusion processes with a shared reservoir of particles
We introduce a mean-field theoretical framework to describe multiple totally asymmetric simple exclusion processes (TASEPs) with different lattice lengths and entry and exit rates, competing for a finite reservoir of particles. We present relations for the partitioning of particles between the reservoir and the lattices: These relations allow us to show that competition for particles can have nontrivial effects on the phase behavior of individual lattices. For a system with nonidentical lattices, we find that when a subset of lattices undergoes a phase transition from low to high density, the entire set of lattice currents becomes independent of total particle number. We generalize our approach to systems with a continuous distribution of lattice parameters, for which we demonstrate that measurements of the current carried by a single lattice type can be used to extract the entire distribution of lattice parameters. Our approach applies to populations of TASEPs with any distribution of lattice parameters and could easily be extended beyond the mean-field case
011142-1 to 011142-11
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Ciandrini, Luca
c84b054c-e61f-4696-8437-f3541b25c256
Romano, M. Carmen
dce7bc79-a682-4410-b1bc-37ee2b78727b
Allen, Rosalind J.
853bb04d-9136-4235-8ec6-0ea995465264
27 January 2012
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Ciandrini, Luca
c84b054c-e61f-4696-8437-f3541b25c256
Romano, M. Carmen
dce7bc79-a682-4410-b1bc-37ee2b78727b
Allen, Rosalind J.
853bb04d-9136-4235-8ec6-0ea995465264
Greulich, Philip, Ciandrini, Luca, Romano, M. Carmen and Allen, Rosalind J.
(2012)
Mixed population of competing totally asymmetric simple exclusion processes with a shared reservoir of particles.
Physical Review E, 85 (1), .
(doi:10.1103/PhysRevE.85.011142).
Abstract
We introduce a mean-field theoretical framework to describe multiple totally asymmetric simple exclusion processes (TASEPs) with different lattice lengths and entry and exit rates, competing for a finite reservoir of particles. We present relations for the partitioning of particles between the reservoir and the lattices: These relations allow us to show that competition for particles can have nontrivial effects on the phase behavior of individual lattices. For a system with nonidentical lattices, we find that when a subset of lattices undergoes a phase transition from low to high density, the entire set of lattice currents becomes independent of total particle number. We generalize our approach to systems with a continuous distribution of lattice parameters, for which we demonstrate that measurements of the current carried by a single lattice type can be used to extract the entire distribution of lattice parameters. Our approach applies to populations of TASEPs with any distribution of lattice parameters and could easily be extended beyond the mean-field case
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Published date: 27 January 2012
Organisations:
Applied Mathematics
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Local EPrints ID: 408812
URI: http://eprints.soton.ac.uk/id/eprint/408812
ISSN: 1539-3755
PURE UUID: f056a385-cf6c-4e27-aa35-82e3575480d7
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Date deposited: 28 May 2017 04:01
Last modified: 16 Mar 2024 04:17
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Contributors
Author:
Luca Ciandrini
Author:
M. Carmen Romano
Author:
Rosalind J. Allen
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