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Deep learning on the 2-dimensional Ising model to extract the crossover region with a variational autoencoder

Nicholas Walker, Ka-Ming Tam, Mark Jarrell

2020Scientific Reports39 citationsDOIOpen Access PDF

Abstract

The 2-dimensional Ising model on a square lattice is investigated with a variational autoencoder in the non-vanishing field case for the purpose of extracting the crossover region between the ferromagnetic and paramagnetic phases. The encoded latent variable space is found to provide suitable metrics for tracking the order and disorder in the Ising configurations that extends to the extraction of a crossover region in a way that is consistent with expectations. The extracted results achieve an exceptional prediction for the critical point as well as agreement with previously published results on the configurational magnetizations of the model. The performance of this method provides encouragement for the use of machine learning to extract meaningful structural information from complex physical systems where little a priori data is available.

Topics & Concepts

AutoencoderIsing modelCrossoverDeep learningArtificial intelligenceComputer scienceA priori and a posterioriLattice (music)Statistical physicsCritical point (mathematics)FerromagnetismAlgorithmSquare latticeMathematicsField (mathematics)Unsupervised learningPattern recognition (psychology)PhysicsPoint (geometry)Data pointQuantum many-body systemsTheoretical and Computational PhysicsMachine Learning in Materials Science
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