Masayuki Ohzeki, Keisuke Fujii
The conventional duality analysis is employed to identify a location of a critical point on a uniform lattice without any disorder in its structure. In the present study, we deal with the random planar lattice, which consists of the randomized structure based on the square lattice. We consider the uniformly random modification by the bond dilution and contraction on a part of the unit square, which include the triangular and hexagonal lattices in extreme cases of a parameter to control the structure. The duality analysis in a modern fashion with real-space renormalization is found to be available for estimating the location of the critical points with wide range of the randomness parameter. As a simple testbed, we demonstrate that our method indeed gives several critical points for the cases of the Ising and Potts models, and the bond-percolation thresholds on the random planar lattice. Our method leads to not only such an extension of the duality analyses on the classical statistical mechanics but also a fascinating result associated with optimal error thresholds for the special quantum error correction code, the surface code on the random planar lattice, which known as a skillful technique to protect the quantum state.
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http://arxiv.org/abs/1209.3500
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