Small-particle limits in a regularized Laplacian random growth model

Johansson Viklund, Fredrik and Sola, Alan and Turner, Amanda (2015) Small-particle limits in a regularized Laplacian random growth model. Communications in Mathematical Physics, 334 (1). pp. 331-366. ISSN 0010-3616

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Abstract

We study a regularized version of Hastings-Levitov planar random growth that models clusters formed by the aggregation of diffusing particles. In this model, the growing clusters are defined in terms of iterated slit maps whose capacities are given by c_n=c|\Phi_{n-1}'(e^{\sigma+i\theta_n})|^{-\alpha}, \alpha \geq 0, where c>0 is the capacity of the first particle, {\Phi_n}_n are the composed conformal maps defining the clusters of the evolution, {\theta_n}_n are independent uniform angles determining the positions at which particles are attached, and \sigma>0 is a regularization parameter which we take to depend on c. We prove that under an appropriate rescaling of time, in the limit as c converges to 0, the clusters converge to growing disks with deterministic capacities, provided that \sigma does not converge to 0 too fast. We then establish scaling limits for the harmonic measure flow, showing that by letting \alpha tend to 0 at different rates it converges to either the Brownian web on the circle, a stopped version of the Brownian web on the circle, or the identity map. As the harmonic measure flow is closely related to the internal branching structure within the cluster, the above three cases intuitively correspond to the number of infinite branches in the model being either 1, a random number whose distribution we obtain, or unbounded, in the limit as c converges to 0. We also present several findings based on simulations of the model with parameter choices not covered by our rigorous analysis.

Item Type:
Journal Article
Journal or Publication Title:
Communications in Mathematical Physics
Additional Information:
35 pages, 20 figures
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2600/2613
Subjects:
?? random growth modelsscaling limitsloewner differential equationharmonic measure flowbrownian webstatistics and probabilitymathematical physicsstatistical and nonlinear physics ??
ID Code:
66434
Deposited By:
Deposited On:
17 Sep 2013 08:10
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 14:12