3,377 research outputs found
On possible experimental realizations of directed percolation
Directed percolation is one of the most prominent universality classes of
nonequilibrium phase transitions and can be found in a large variety of models.
Despite its theoretical success, no experiment is known which clearly
reproduces the critical exponents of directed percolation. The present work
compares suggested experiments and discusses possible reasons why the
observation of the critical exponents of directed percolation is obscured or
even impossible.Comment: RevTeX, 13 pages, 11 eps figure
Roughening transition driven by a binary spreading process
We introduce a solid-on-solid growth process which evolves by random
deposition of dimers, surface diffusion, and evaporation of monomers from the
edges of plateaus. It is shown that the model exhibits a robust transition from
a smooth to a rough phase. The roughening transition is driven by an absorbing
phase transition at the bottom layer of the interface, which displays the same
type of critical behavior as the pair contact process with diffusion 2A->3A,
2A->0.Comment: RevTeX, 6 pages, 6 eps figure
A model for anomalous directed percolation
We introduce a model for the spreading of epidemics by long-range infections
and investigate the critical behaviour at the spreading transition. The model
generalizes directed bond percolation and is characterized by a probability
distribution for long-range infections which decays in spatial dimensions
as . Extensive numerical simulations are performed in order to
determine the density exponent and the correlation length exponents
and for various values of . We observe that
these exponents vary continuously with , in agreement with recent
field-theoretic predictions. We also study a model for pairwise annihilation of
particles with algebraically distributed long-range interactions.Comment: RevTeX, 9 pages, including 6 eps-figure
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