Stephan M Dammer, Silvio R Dahmen, Haye Hinrichsen
Published 2002-02-08Version 1
Equilibrium systems which exhibit a phase transition can be studied by investigating the complex zeros of the partition function. This method, pioneered by Yang and Lee, has been widely used in equilibrium statistical physics. We show that an analogous treatment is possible for a nonequilibrium phase transition into an absorbing state. By investigating the complex zeros of the survival probability of directed percolation processes we demonstrate that the zeros provide information about universal properties. Moreover we identify certain non-trivial points where the survival probability for bond percolation can be computed exactly.
Comments: LaTeX, IOP-style, 13 pages, 10 eps figures
Journal: J. Phys. A: Math. Gen. 35 (2002) 4527-4539
Effect of spatial bias on the nonequilibrium phase transition in a system of coagulating and fragmenting particles
Nonequilibrium phase transition of a one dimensional system reaches the absorbing state by two different ways
Nonequilibrium phase transition in surface growth
