From Dual Unitarity to Generic Quantum Operator Spreading
Abstract
Dual-unitary circuits are paradigmatic examples of exactly solvable yet chaotic quantum many-body systems, but solvability naturally goes along with a degree of non-generic behaviour. By investigating the effect of weakly broken dual-unitarity on the spreading of local operators we study whether, and how, small deviations from dual-unitarity recover fully generic many-body dynamics. We present a discrete path-integral formula for the out-of-time-order correlator and use it to recover a butterfly velocity smaller than the light-cone velocity, , and a diffusively broadening operator front, two generic features of ergodic quantum spin chains absent in dual-unitary circuit dynamics. We find that the butterfly velocity and diffusion constant are determined by a small set of microscopic quantities and that the operator entanglement of the gates plays a crucial role.
Cite
@article{arxiv.2210.13490,
title = {From Dual Unitarity to Generic Quantum Operator Spreading},
author = {Michael A. Rampp and Roderich Moessner and Pieter W. Claeys},
journal= {arXiv preprint arXiv:2210.13490},
year = {2023}
}
Comments
(6+15) pages, 5 figures; Accepted version; corrected some typos in the supplementary material