Anisotropic Diffusion Limited Aggregation
Abstract
Using stochastic conformal mappings we study the effects of anisotropic perturbations on diffusion limited aggregation (DLA) in two dimensions. The harmonic measure of the growth probability for DLA can be conformally mapped onto a constant measure on a unit circle. Here we map m preferred directions for growth of angular width σ to a distribution on the unit circle which is a periodic function with m peaks in [-π, π) such that the width σ of each peak scales as σ 1/k, where k defines the ``strength'' of anisotropy along any of the m chosen directions. The two parameters (m,k) map out a parameter space of perturbations that allows a continuous transition from DLA (for m=0 or k=0) to m needle-like fingers as k ∞. We show that at fixed m the effective fractal dimension of the clusters D(m,k) obtained from mass-radius scaling decreases with increasing k from DDLA 1.71 to a value bounded from below by Dmin = 3/2. Scaling arguments suggest a specific form for the dependence of the fractal dimension D(m,k) on k for large k, form which compares favorably with numerical results.
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