Regensburg 2022 – scientific programme
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TT: Fachverband Tiefe Temperaturen
TT 4: Many-Body Quantum Dynamics 1 (joint session DY/TT)
TT 4.6: Talk
Monday, September 5, 2022, 11:30–11:45, H20
Disorder-free localization transition in a two-dimensional lattice gauge theory — •Nilotpal Chakraborty1, Markus Heyl1,2, Petr Karpov1, and Roderich Moessner1 — 1Max Planck Institute for physics of complex systems, Dresden — 2University of Augsburg, Augsburg
While the nature of the quantum localization transition (QLT) is still debated for conventional many-body localization, here we provide the first comprehensive characterization of the QLT in two dimensions (2D) for a disorder-free case. Disorder-free localization can appear in homogeneous 2D LGTs such as the U(1) quantum link model (QLM) due to an underlying classical percolation transition fragmenting the system into disconnected real-space clusters. Building on the percolation model, we characterize the QLT in the U(1) QLM through a detailed study of the ergodicity properties of finite-size real- space clusters via level-spacing statistics and localization in configuration space. We argue for the presence of two regimes - one in which large finite-size clusters effectively behave non-ergodically, a result naturally accounted for as an interference phenomenon in configuration space and the other in which all large clusters behave ergodically. As one central result, in the latter regime we claim that the QLT is equivalent to the classical percolation transition and is hence continuous. Utilizing this equivalence we determine the universality class and critical behaviour of the QLT from a finite-size scaling analysis of the percolation problem.