Local Integrals of Motion in Dipole-Conserving Models with Hilbert Space Fragmentation

Patrycja Łydżba, P. Prelovšek, Marcin Mierzejewski

Type: Article

Publication Date: 2024-05-31

Citations: 2

DOI: https://doi.org/10.1103/physrevlett.132.220405

Abstract

Hilbert space fragmentation is an ergodicity-breaking phenomenon, in which the Hamiltonian shatters into exponentially many dynamically disconnected sectors. In many fragmented systems, these sectors can be labeled by statistically localized integrals of motion, which are nonlocal operators. We study the paradigmatic nearest-neighbor pair hopping model exhibiting the so-called strong fragmentation. We show that this model hosts local integrals of motion (LIOMs), which correspond to frozen density modes with long wavelengths. The latter modes become subdiffusive when longer-range pair hoppings are allowed. Finally, we make a connection with a tilted (Stark) chain. Contrary to the dipole-conserving effective models, the tilted chain is shown to support either a Hamiltonian or dipole moment as an LIOM. Numerical results are obtained from a numerical algorithm, in which finding LIOMs is reduced to a data compression problem.

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Physical Review Letters - View
arXiv (Cornell University) - View - PDF
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