Related papers: Consecutive-gap ratio distribution for crossover ensembles

Consecutive-gap ratio distribution for crossover ensembles

URL: http://arxiv.org/abs/2512.15390v1
Date: Wed, 17 Dec 2025 12:41:13 GMT
Title: Consecutive-gap ratio distribution for crossover ensembles
Authors: Gerson C. Duarte-Filho, Julian Siegl, John Schliemann, J. Carlos Egues,
Abstract summary: We describe the crossover between the Gaussian ensemble (GOE) and Poisson statistics.<n>This crossover is observed in the isotropic Heisenberg spin-$1/2$ chain with disordered local field.<n>We study the continuous-state Markov process that governs the probability of finding the system close to this fixed point.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The study of spectrum statistics, such as the consecutive-gap ratio distribution, has revealed many interesting properties of many-body complex systems. Here we propose a two-parameter surmise expression for such distribution to describe the crossover between the Gaussian orthogonal ensemble (GOE) and Poisson statistics. This crossover is observed in the isotropic Heisenberg spin-$1/2$ chain with disordered local field, exhibiting the Many-Body Localization (MBL) transition. Inspired by the analysis of stability in dynamical systems, this crossover is presented as a flow pattern in the parameter space, with the Poisson statistics being the fixed point of the system, which represents the MBL phase. We also analyze an isotropic Heisenberg spin-$1/2$ chain with disordered local exchange coupling and a zero magnetic field. In this case, the system never achieves the MBL phase because of the spin rotation symmetry. This case is more sensitive to finite-size effects than the previous one, and thus the flow pattern resembles a two-dimensional random walk close to its fixed point. We propose a system of linearized stochastic differential equations to estimate this fixed point. We study the continuous-state Markov process that governs the probability of finding the system close to this fixed point as the disorder strength increases. In addition, we discuss the conditions under which the stationary probability distribution is given by a bivariate normal distribution.

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