Correlation effects in the diluteness pattern in non-integral dimensional systems on =45 superdiffusion process

Abstract

The effect of the correlations in the diluteness pattern in the systems with non-integral dimensionality, on =45 superdiffusion process is considered in this paper. These spatial correlations have proved to be very effective in the critical phenomena. To simulate the particles motion in this process, we employ the loop erased random walk (LERW). The spatial correlations between imperfections (site-diluteness) also have been modeled by the Ising model on a square lattice. It models the forbidden regions into which the particles are not allowed to enter. The correlations are controlled by an artificial temperature T. The trace of the walkers is shown to be self-similar, whose fingerprint is the power-law behaviors. The detailed analysis of the random walker's traces reveal that the (Ising-type) correlations affect their geometrical properties. At the critical artificial temperature Tc we observe that the exponent of end-to-end distance becomes 0.807 0.002. The fractal dimension of the walker's trace is the other geometrical quantity which scales inversely with the square root of the correlation length of the Ising model, i.e. Df(T)-Df(Tc) ζ-α in which α=0.43 0.05. The winding angle test also reveals that the traces are compatible with the Schramm-Loewner evolution theory, and the diffusivity parameter for T=Tc is =1.89 0.05.