S. Wang, Z. Y. Xie, J. Chen, B. Normand, T. Xiang
Published 2014-05-06Version 1
We investigate the 2- and 3-state ferromagnetic Potts models on the simple cubic lattice using the tensor renormalization group method with higher-order singular value decomposition (HOTRG). HOTRG works in the thermodynamic limit, where we use the $Z_q$ symmetry of the model, combined with a new measure for detecting the transition, to improve the accuracy of the critical point for the 2-state model by two orders of magnitude, obtaining $T_c = 4.51152469(1)$. The 3-state model is far more complex, and we improve the overall understanding of this case by calculating its thermodynamic quantities with high accuracy. Our results verify the first-order nature of the phase transition and the HOTRG transition temperature benchmarks the most recent Monte Carlo result.
Comments: 6 pages, 5 figures, 2 tables
Coarse-graining renormalization by higher-order singular value decomposition
Ferromagnetic Potts models with multi-site interaction
Inhomogeneities on all scales at a phase transition altered by disorder
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