Strong-Disorder Renormalization Group for Periodically Driven Systems
Disordered Systems and Neural Networks
2018-11-12 v2 Statistical Mechanics
Strongly Correlated Electrons
Abstract
Quenched randomness can lead to robust non-equilibrium phases of matter in periodically driven (Floquet) systems. Analyzing transitions between such dynamical phases requires a method capable of treating the twin complexities of disorder and discrete time-translation symmetry. We introduce a real-space renormalization group approach, asymptotically exact in the strong-disorder limit, and exemplify its use on the periodically driven interacting quantum Ising model. We analyze the universal physics near the critical lines and multicritical point of this model, and demonstrate the robustness of our results to the inclusion of weak interactions.
Cite
@article{arxiv.1807.09767,
title = {Strong-Disorder Renormalization Group for Periodically Driven Systems},
author = {William Berdanier and Michael Kolodrubetz and S. A. Parameswaran and Romain Vasseur},
journal= {arXiv preprint arXiv:1807.09767},
year = {2018}
}
Comments
11 pages, 6 figures; published version