Monte-Carlo simulation study of the two-stage percolation transition in enhanced binary trees

Tomoaki Nogawa; Takehisa Hasegawa

doi:10.1088/1751-8113/42/14/145001

Monte-Carlo simulation study of the two-stage percolation transition in enhanced binary trees

Statistical Mechanics 2009-03-19 v2 Disordered Systems and Neural Networks

Authors: Tomoaki Nogawa , Takehisa Hasegawa

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Abstract

We perform Monte-Carlo simulations to study the Bernoulli ( $p$ ) bond percolation on the enhanced binary tree which belongs to the class of nonamenable graphs with one end. Our numerical results show that the system has two different percolation thresholds $p_{c1}$ and $p_{c2}$ . All the points in the intermediate phase $(p_{c1} < p < p_{c2})$ are critical and there exist infinitely many infinite clusters in the intermediate phase. In this phase the corresponding fractal exponent continuously increases with $p$ from zero to unity.

Keywords

percolation percolation theory monte carlo simulation

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@article{arxiv.0810.1602,
  title  = {Monte-Carlo simulation study of the two-stage percolation transition in enhanced binary trees},
  author = {Tomoaki Nogawa and Takehisa Hasegawa},
  journal= {arXiv preprint arXiv:0810.1602},
  year   = {2009}
}

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4 pages, 6 figures

Monte-Carlo simulation study of the two-stage percolation transition in enhanced binary trees

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