Dynamics of an anchored Toom interface

B. Derrida; J. L. Lebowitz; E. R. Speer; H. Spohn

doi:10.1088/0305-4470/24/20/015

Dynamics of an anchored Toom interface

B. Derrida
, J. L. Lebowitz
, E. R. Speer
, H. Spohn

Institute for Advanced Study

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

At a sufficiently low noise level the two-dimensional Toom model (North East Center majority vote with small errors) has two stationary states. The authors study the statistical properties of interfaces between these phases, with particular attention to a stationary interface maintained in the third quadrant by mixed +- boundary conditions. The fluctuations in this interface are found numerically to be much smaller than in equilibrium interfaces; they have exponents 1/4 or 1/3, depending on the symmetry, rather than 1/2. The correlations exhibit long-range behaviour reminiscent of self-organized criticality. They construct several approximate theories of the interface which reproduce this behaviour, at least qualitatively. The most accurate of these leads to a novel nonlinear partial differential equation for the asymptotic probability distribution of the fluctuations along the interface.

Original language	English
Article number	015
Pages (from-to)	4805-4834
Number of pages	30
Journal	Journal of Physics A: Mathematical and General
Volume	24
Issue number	20
DOIs	https://doi.org/10.1088/0305-4470/24/20/015
State	Published - 1991
Externally published	Yes

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title = "Dynamics of an anchored Toom interface",

abstract = "At a sufficiently low noise level the two-dimensional Toom model (North East Center majority vote with small errors) has two stationary states. The authors study the statistical properties of interfaces between these phases, with particular attention to a stationary interface maintained in the third quadrant by mixed +- boundary conditions. The fluctuations in this interface are found numerically to be much smaller than in equilibrium interfaces; they have exponents 1/4 or 1/3, depending on the symmetry, rather than 1/2. The correlations exhibit long-range behaviour reminiscent of self-organized criticality. They construct several approximate theories of the interface which reproduce this behaviour, at least qualitatively. The most accurate of these leads to a novel nonlinear partial differential equation for the asymptotic probability distribution of the fluctuations along the interface.",

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AU - Derrida, B.

AU - Lebowitz, J. L.

AU - Speer, E. R.

AU - Spohn, H.

PY - 1991

Y1 - 1991

N2 - At a sufficiently low noise level the two-dimensional Toom model (North East Center majority vote with small errors) has two stationary states. The authors study the statistical properties of interfaces between these phases, with particular attention to a stationary interface maintained in the third quadrant by mixed +- boundary conditions. The fluctuations in this interface are found numerically to be much smaller than in equilibrium interfaces; they have exponents 1/4 or 1/3, depending on the symmetry, rather than 1/2. The correlations exhibit long-range behaviour reminiscent of self-organized criticality. They construct several approximate theories of the interface which reproduce this behaviour, at least qualitatively. The most accurate of these leads to a novel nonlinear partial differential equation for the asymptotic probability distribution of the fluctuations along the interface.

AB - At a sufficiently low noise level the two-dimensional Toom model (North East Center majority vote with small errors) has two stationary states. The authors study the statistical properties of interfaces between these phases, with particular attention to a stationary interface maintained in the third quadrant by mixed +- boundary conditions. The fluctuations in this interface are found numerically to be much smaller than in equilibrium interfaces; they have exponents 1/4 or 1/3, depending on the symmetry, rather than 1/2. The correlations exhibit long-range behaviour reminiscent of self-organized criticality. They construct several approximate theories of the interface which reproduce this behaviour, at least qualitatively. The most accurate of these leads to a novel nonlinear partial differential equation for the asymptotic probability distribution of the fluctuations along the interface.

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EP - 4834

JO - Journal of Physics A: Mathematical and General

JF - Journal of Physics A: Mathematical and General

IS - 20

M1 - 015

ER -

Dynamics of an anchored Toom interface

Abstract

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