English

Anomalous Roughness, Localization, and Globally Constrained Random Walks

Statistical Mechanics 2013-05-29 v2 Disordered Systems and Neural Networks

Abstract

The scaling properties of a random walker subject to the global constraint that it needs to visit each site an even number of times are determined. Such walks are realized in the equilibrium state of one dimensional surfaces that are subject to dissociative dimer-type surface dynamics. Moreover, they can be mapped onto unconstrained random walks on a random surface, and the latter corresponds to a non-Hermitian random free fermion model which describes electron localization near a band edge. We show analytically that the dynamic exponent of this random walk is z=d+2z=d+2 in spatial dimension dd. This explains the anomalous roughness, with exponent α=1/3\alpha=1/3, in one dimensional equilibrium surfaces with dissociative dimer-type dynamics.

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Cite

@article{arxiv.cond-mat/0103549,
  title  = {Anomalous Roughness, Localization, and Globally Constrained Random Walks},
  author = {Jae Dong Noh and Hyunggyu Park and Doochul Kim and Marcel den Nijs},
  journal= {arXiv preprint arXiv:cond-mat/0103549},
  year   = {2013}
}

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15 pages