ISSN:
1572-9613
Keywords:
Low-dimensional systems
;
master equations
;
mean-field theory
;
nonequilibrium systems
;
nonlinear dynamics
;
chemical reactions
Source:
Springer Online Journal Archives 1860-2000
Topics:
Physics
Notes:
Abstract We study, using master equation techniques, the time evolution of the average concentration and fluctuations in the two-speciesn-molecule reactionA+(n-1)X⇌nX in one dimension described by a Glauber-type dynamical lattice model for the specific casesn=2 (bimolecular) andn=3 (trimolecular). The evolution is found to be quite different from that described by the Mean-Field equations even for the bimolecular case, where the steady state is meanfield. For the trimolecular process, the values of fluctuation correlations in the nonequilibrium steady state are well predicted by the fixed points of the dynamical equations obtained from the master equation. In addition, three-point fluctuation correlations are found to play an important role in both processes and are accounted for by an extended Bethe-type ansatz. The bimolecular system shows no memory effects of initial conditions, while the trimolecular system is characterized by memory effects in terms of the average concentration, fluctuations as well as the entropy. The spatial decay of fluctuation correlations is found to be short range at the steady state for the trimolecular system.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF02189232
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