Bath-induced Zeno localization in driven many-body quantum systems
Statistical Mechanics
2025-08-19 v3 Disordered Systems and Neural Networks
Quantum Physics
Abstract
We study a quantum interacting spin system subject to an external drive and coupled to a thermal bath of spatially localized vibrational modes, serving as a model of Dynamic Nuclear Polarization. We show that even when the many-body eigenstates of the system are ergodic, a sufficiently strong coupling to the bath may effectively localize the spins due to many-body quantum Zeno effect, as manifested by the hole-burning shape of the electron paramagnetic resonance spectrum. Our results provide an explanation of the breakdown of the thermal mixing regime experimentally observed above 4 - 5 Kelvin.
Cite
@article{arxiv.2009.11784,
title = {Bath-induced Zeno localization in driven many-body quantum systems},
author = {Thibaud Maimbourg and Denis M. Basko and Markus Holzmann and Alberto Rosso},
journal= {arXiv preprint arXiv:2009.11784},
year = {2025}
}
Comments
Revised version with some errors corrected. 4 + 23 pages