Anomalous Behavior of the Contact Process with Aging

C. Lopez; D. Bernoulli; H. Hinrichsen; H. K. Janssen; I. Jensen; J. Blease; J. F. F. Mendes; J. F. F. Mendes; J. L. Cardy; J. Marro; J. W. Essam; M. A. Muñoz; M. A. Muñoz; M. A. Novak; M. A. Nowak; P. Grassberger; P. Grassberger; P. Grassberger; P. Grassberger; R. A. Weiss; R. Cafiero; R. Dickman; R. Dickman; S. N. Dorogovtsev; T. E. Harris; T.M. Liggett; U. Alon; W. Kinzel

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Anomalous Behavior of the Contact Process with Aging

Authors: C. Lopez
D. Bernoulli
H. Hinrichsen
H. K. Janssen
I. Jensen
J. Blease
J. F. F. Mendes
J. F. F. Mendes
J. L. Cardy
J. Marro
J. W. Essam
M. A. Muñoz
M. A. Muñoz
M. A. Novak
M. A. Nowak
P. Grassberger
P. Grassberger
P. Grassberger
P. Grassberger
R. A. Weiss
R. Cafiero
R. Dickman
R. Dickman
S. N. Dorogovtsev
T. E. Harris
T.M. Liggett
U. Alon
W. Kinzel
Publication date: 20 July 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The effect of power-law aging on a contact process is studied by simulation and using a mean-field approach. We find that the system may approach its stationary state in a nontrivial, nonmonotonous way. For the particular value of the aging exponent,

\alpha=1

, we observe a rich set of behaviors: depending on the process parameters, the relaxation to the stationary state proceeds as

1/\ln t

or via a power law with a nonuniversal exponent. Simulation results suggest that for

0<\alpha<1

, the absorbing-state phase transition is in the universality class of directed percolation.Comment: 4 pages revtex (twocolumn, psfig), 3 figure

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