Tunable Hilbert-space fragmentation and extended critical regime

Oral-In-person

Abstract

Systems exhibiting the Hilbert-space fragmentation are nonergodic, and their Hamiltonians decompose into exponentially many blocks in the computational basis. In many cases, these blocks can be labeled by eigenvalues of statistically localized integrals of motion (SLIOM), which play a similar role in fragmented systems as local integrals of motion in integrable systems.

While a nonzero perturbation eliminates all nontrivial conserved quantities from integrable models, we demonstrate for the t-Jz chain that an appropriately chosen perturbation may gradually eliminate SLIOMs (one by one) by progressively merging the fragmented subspaces. This gradual recovery of ergodicity manifests as an extended critical regime characterized by multiple peaks of the fidelity susceptibility. Each peak signals a change in the number of SLIOMs and blocks, as well as an ultra-slow relaxation of local observables.

Presenters

  • Mateusz Lisiecki

    • Wroclaw University of Science and Technology

Authors

  • Mateusz Lisiecki

    • Wroclaw University of Science and Technology
  • Jacek Herbrych

    • Wroclaw University of Science and Technology
  • Patrycja Lydzba

  • Marcin Mierzejewski

  • Janez Bonca

    • Faculty of mathematics and Physics, University of Ljubljana