Fractal dimension of domain walls in two-dimensional Ising spin glasses

Abstract

We study domain walls in 2d Ising spin glasses in terms of a minimum-weight path problem. Using this approach, large systems can be treated exactly. Our focus is on the fractal dimension df of domain walls, which describes via < >df the growth of the average domain-wall length with %% systems size L× L. %% 20.07.07 OM %% Exploring systems up to L=320 we yield df=1.274(2) for the case of Gaussian disorder, i.e. a much higher accuracy compared to previous studies. For the case of bimodal disorder, where many equivalent domain walls exist due to the degeneracy of this model, we obtain a true lower bound df=1.095(2) and a (lower) estimate df=1.395(3) as upper bound. Furthermore, we study the distributions of the domain-wall lengths. Their scaling with system size can be described also only by the exponent df, i.e. the distributions are monofractal. Finally, we investigate the growth of the domain-wall width with system size (``roughness'') and find a linear behavior.