Litcius/Paper detail

Hilbert Space Shattering and Disorder-Free Localization in Polar Lattice Gases

Wei-Han Li, Xiaolong Deng, Luis Santos

2021Physical Review Letters34 citationsDOIOpen Access PDF

Abstract

Emerging dynamical constraints resulting from intersite interactions severely limit particle mobility in polar lattice gases. Whereas in absence of disorder hard-core Hubbard models with only strong nearest-neighbor interactions present Hilbert space fragmentation but no many-body localization for typical states, the 1/r^{3} tail of the dipolar interaction results in Hilbert space shattering, as well as in a dramatically slowed down dynamics and eventual disorder-free localization. Our results show that the study of the intriguing interplay between disorder- and interaction-induced many-body localization is within reach of future experiments with magnetic atoms and polar molecules.

Topics & Concepts

PhysicsHilbert spacePolarLattice (music)DipoleSpace (punctuation)Condensed matter physicsParameter spaceQuantum mechanicsRigged Hilbert spaceInstabilityMagnetic fieldLimit (mathematics)Fragmentation (computing)Classical mechanicsStatistical physicsHubbard modelMagnetic dipoleCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsTopological Materials and Phenomena
Hilbert Space Shattering and Disorder-Free Localization in Polar Lattice Gases | Litcius