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Condensed Matter > Statistical Mechanics
Title: The statistical mechanics and machine learning of the $α$-Rényi ensemble
(Submitted on 5 Apr 2024 (v1), last revised 18 Apr 2024 (this version, v2))
Abstract: We study the statistical physics of the classical Ising model in the so-called $\alpha$-R\'enyi ensemble, a finite-temperature thermal state approximation that minimizes a modified free energy based on the $\alpha$-R\'enyi entropy. We begin by characterizing its critical behavior in mean-field theory in different regimes of the R\'enyi index $\alpha$. Next, we re-introduce correlations and consider the model in one and two dimensions, presenting an exact analysis of the former and devising an unconventional Monte Carlo approach to the study of the latter. Remarkably, we find that while mean-field predicts a continuous phase transition below a threshold index value of $\alpha \sim 1.303$ and a first-order transition above it, the Monte Carlo results in two dimensions point to a continuous transition at all $\alpha$. We conclude by performing a variational minimization of the $\alpha$-R\'enyi free energy using a recurrent neural network (RNN) ansatz where we find that the RNN performs well in two dimensions when compared to the Monte Carlo simulations. Our work highlights the potential opportunities and limitations associated with the use of the $\alpha$-R\'enyi ensemble formalism in probing the thermodynamic equilibrium properties of classical and quantum systems.
Submission history
From: Andrew Jreissaty [view email][v1] Fri, 5 Apr 2024 10:28:21 GMT (1462kb,D)
[v2] Thu, 18 Apr 2024 17:33:44 GMT (1464kb,D)
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