Related papers: Integrability is generic in homogeneous U(1)-invariant nearest-neighbor qubit circuits

Integrability is generic in homogeneous U(1)-invariant nearest-neighbor qubit circuits

URL: http://arxiv.org/abs/2410.06760v1
Date: Wed, 9 Oct 2024 10:46:09 GMT
Title: Integrability is generic in homogeneous U(1)-invariant nearest-neighbor qubit circuits
Authors: Marko Znidaric, Urban Duh, Lenart Zadnik,
Abstract summary: Integrability is an exceptional property believed to hold only for systems with fine-tuned parameters. We show that in homogeneous nearest-neighbor qubit circuits with a U(1) symmetry, integrability is generic. We identify two phases with different conservation laws, transport properties, and strong zero edge modes.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Integrability is an exceptional property believed to hold only for systems with fine-tuned parameters. Contrary, we explicitly show that in homogeneous nearest-neighbor qubit circuits with a U(1) symmetry, i.e., circuits that repeatedly apply the same magnetization-conserving two-qubit gate, this is not the case. There, integrability is generic: all such brickwall qubit circuits are integrable, even with a randomly selected gate. We identify two phases with different conservation laws, transport properties, and strong zero edge modes. Experimentally important is the fact that varying any one of the parameters in the generic U(1) gate, one will typically cross the critical manifold that separates the two phases. Finally, we report on an unconventional time-reversal symmetry causing the system with open boundary conditions to be in the orthogonal class, while the one with periodic boundary conditions is in the unitary class.

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