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Article Dans Une Revue Physical Review B Année : 2019

Neural network setups for a precise detection of the many-body localization transition: finite-size scaling and limitations

Résumé

Determining phase diagrams and phase transitions semiautomatically using machine learning has received a lot of attention recently, with results in good agreement with more conventional approaches in most cases. When it comes to more quantitative predictions, such as the identification of universality class or precise determination of critical points, the task is more challenging. As an exacting testbed, we study the Heisenberg spin-1/2 chain in a random external field that is known to display a transition from a many-body localized to a thermalizing regime, which nature is not entirely characterized. We introduce different neural network structures and dataset setups to achieve a finite-size scaling analysis with the least possible physical bias (no assumed knowledge on the phase transition and directly inputting wave-function coefficients), using state-of-the-art input data simulating chains of sizes up to L=24. In particular, we use domain adversarial techniques to ensure that the network learns scale-invariant features. We find a variability of the output results with respect to network and training parameters, resulting in relatively large uncertainties on final estimates of critical point and correlation length exponent which tend to be larger than the values obtained from conventional approaches. We put the emphasis on interpretability throughout the paper and discuss what the network appears to learn for the various used architectures. Our findings show that a quantitative analysis of phase transitions of unknown nature remains a difficult task with neural networks when using the minimally engineered physical input.

Dates et versions

hal-02346820 , version 1 (05-11-2019)

Identifiants

Citer

Hugo Théveniaut, Fabien Alet. Neural network setups for a precise detection of the many-body localization transition: finite-size scaling and limitations. Physical Review B, 2019, 100, pp.224202. ⟨10.1103/PhysRevB.100.224202⟩. ⟨hal-02346820⟩
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