Quantum Many-Body Scars: A Quasiparticle Perspective
Abstract
Weakly interacting quasiparticles play a central role in the low-energy description of many phases of quantum matter. At higher energies, however, quasiparticles cease to be well-defined in generic many-body systems due to a proliferation of decay channels. In this review, we discuss the phenomenon of quantum many-body scars, which can give rise to certain species of stable quasiparticles throughout the energy spectrum. This goes along with a set of unusual non-equilibrium phenomena including many-body revivals and non-thermal stationary states. We provide a pedagogical exposition of this physics via a simple yet comprehensive example, that of a spin-1 XY model. We place our discussion in the broader context of symmetry-based constructions of many-body scar states, projector embeddings, and Hilbert space fragmentation. We conclude with a summary of experimental progress and theoretical puzzles.
Cite
@article{arxiv.2206.11528,
title = {Quantum Many-Body Scars: A Quasiparticle Perspective},
author = {Anushya Chandran and Thomas Iadecola and Vedika Khemani and Roderich Moessner},
journal= {arXiv preprint arXiv:2206.11528},
year = {2024}
}
Comments
23 pages + refs, 2 figures. Small changes from v1. Accepted version for Annual review of Condensed Matter Physics