Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2003-12-30
Phys.Rev. E70 (2004) 046117
Physics
Condensed Matter
Statistical Mechanics
23 pages, 17 figures, UB-ECM-PF-03/38
Scientific paper
10.1103/PhysRevE.70.046117
In this paper we study dynamical aspects of the two-dimensional gonihedric spin model using both numerical and analytical methods. This spin model has vanishing microscopic surface tension and it actually describes an ensemble of loops living on a 2D surface. The self-avoidance of loops is parametrized by a parameter $\kappa$. The $\kappa=0$ model can be mapped to one of the six-vertex models discussed by Baxter and it does not have critical behavior. We have found that $\kappa\neq 0$ does not lead to critical behavior either. Finite size effects are rather severe, and in order to understand these effects a finite volume calculation for non self-avoiding loops is presented. This model, like his 3D counterpart, exhibits very slow dynamics, but a careful analysis of dynamical observables reveals non-glassy evolution (unlike its 3D counterpart). We find, also in this $\kappa=0$ case, the law that governs the long-time, low-temperature evolution of the system, through a dual description in terms of defects. A power, rather than logarithmic, law for the approximation to equilibrium has been found.
Espriu Domenec
Prats A.
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