One-dimensional Nonequilibrium Kinetic Ising Models with local
  spin-symmetry breaking: N-component branching annihilation transition at zero
  branching rate

D. Zhong; E. Carlon; E. Domany; G. Ódor; G. Ódor; G. Ódor; G. Ódor; G. Ódor; G. Ódor; Géza Ódor; H. A. Gutowitz; H. Hinrichsen; H. Park; H. Park; H. Takayasu; I. Jensen; I. Jensen; J. Cardy; J. Hooyberghs; M. H. Kim; N. Menyhárd; N. Menyhárd; N. Menyhárd; N. Menyhárd; Nóra Menyhárd; P. Grassberger; P. Grassberger; R. Dickman; R. J. Glauber; S. Kwon; S. N. Majumdar; T. Aukrust

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One-dimensional Nonequilibrium Kinetic Ising Models with local spin-symmetry breaking: N-component branching annihilation transition at zero branching rate

Authors: D. Zhong
E. Carlon
E. Domany
G. Ódor
G. Ódor
G. Ódor
G. Ódor
G. Ódor
G. Ódor
Géza Ódor
H. A. Gutowitz
H. Hinrichsen
H. Park
H. Park
H. Takayasu
I. Jensen
I. Jensen
J. Cardy
J. Hooyberghs
M. H. Kim
N. Menyhárd
N. Menyhárd
N. Menyhárd
N. Menyhárd
Nóra Menyhárd
P. Grassberger
P. Grassberger
R. Dickman
R. J. Glauber
S. Kwon
S. N. Majumdar
T. Aukrust
Publication date: 1 January 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The effects of locally broken spin symmetry are investigated in one dimensional nonequilibrium kinetic Ising systems via computer simulations and cluster mean field calculations. Besides a line of directed percolation transitions, a line of transitions belonging to N-component, two-offspring branching annihilating random-walk class (N-BARW2) is revealed in the phase diagram at zero branching rate. In this way a spin model for N-BARW2 transitions is proposed for the first time.Comment: 6 pages, 5 figures included, 2 new tables added, to appear in PR

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