Related papers: Anomalous transport in U(1)-symmetric quantum circuits

Anomalous transport in U(1)-symmetric quantum circuits

URL: http://arxiv.org/abs/2411.14357v1
Date: Thu, 21 Nov 2024 17:56:26 GMT
Title: Anomalous transport in U(1)-symmetric quantum circuits
Authors: Alessandro Summer, Alex Nico-Katz, Shane Dooley, John Goold,
Abstract summary: Investigation of discrete-time transport in a generic U(1)-symmetric disordered model tuned across an array of different dynamical regimes. We develop an aggregate quantity, a circular statistical moment, which is a simple function of the magnetization profile. From this quantity we extract transport exponents, revealing behaviors across the phase diagram consistent with localized, diffusive, and - most interestingly for a disordered system - superdiffusive regimes.
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Abstract: In this work we investigate discrete-time transport in a generic U(1)-symmetric disordered model tuned across an array of different dynamical regimes. We develop an aggregate quantity, a circular statistical moment, which is a simple function of the magnetization profile and which elegantly captures transport properties of the system. From this quantity we extract transport exponents, revealing behaviors across the phase diagram consistent with localized, diffusive, and - most interestingly for a disordered system - superdiffusive regimes. Investigation of this superdiffusive regime reveals the existence of a prethermal "swappy" regime unique to discrete-time systems in which excitations propagate coherently; even in the presence of strong disorder.

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