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Whole-plane self-avoiding walks and radial Schramm-Loewner evolution: a numerical study

Statistical Mechanics 2015-05-13 v1
Authors: Marco Gherardi
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Abstract

We numerically test the correspondence between the scaling limit of self-avoiding walks (SAW) in the plane and Schramm-Loewner evolution (SLE) with k=8/3. We introduce a discrete-time process approximating SLE in the exterior of the unit disc and compare the distribution functions for an internal point in the SAW and a point at a fixed fractal variation on the SLE, finding good agreement. This provides numerical evidence in favor of a conjecture by Lawler, Schramm and Werner. The algorithm turns out to be an efficient way of computing the position of an internal point in the SAW.

Keywords

random walk theory

Cite

@article{arxiv.0903.3503,
  title  = {Whole-plane self-avoiding walks and radial Schramm-Loewner evolution: a numerical study},
  author = {Marco Gherardi},
  journal= {arXiv preprint arXiv:0903.3503},
  year   = {2015}
}

Comments

15 pages, 4 figures

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