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Monte Carlo Renormalization Group for Classical Lattice Models with Quenched Disorder

Author(s): Wu, Yantao; Car, Roberto

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Abstract: We extend to quenched-disordered systems the variational scheme for real-space renormalization group calculations that we recently introduced for homogeneous spin Hamiltonians. When disorder is present our approach gives access to the flow of the renormalized Hamiltonian distribution, from which one can compute the critical exponents if the correlations of the renormalized couplings retain finite range. Key to the variational approach is the bias potential found by minimizing a convex functional in statistical mechanics. This potential reduces dramatically the Monte Carlo relaxation time in large disordered systems. We demonstrate the method with applications to the two-dimensional dilute Ising model, the random transverse field quantum Ising chain, and the random field Ising in two- and three-dimensional lattices.
Publication Date: 3-Nov-2020
Electronic Publication Date: 3-Nov-2020
Citation: Wu, Yantao, Car, Roberto. (Monte Carlo Renormalization Group for Classical Lattice Models with Quenched Disorder. Physical Review Letters, 125 (19), 10.1103/physrevlett.125.190601
DOI: doi:10.1103/physrevlett.125.190601
ISSN: 0031-9007
EISSN: 1079-7114
Language: en
Type of Material: Journal Article
Journal/Proceeding Title: Physical Review Letters
Version: Author's manuscript



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