Fermionic matter-wave quantum optics with cold-atom impurity models
Abstract
Motivated by recent cold-atom realisations of matter-wave waveguide QED, we study simple fermionic impurity models and discuss fermionic analogues of several paradigmatic phenomena in quantum optics, including formation of non-trivial bound states, (matter-wave) emission dynamics, and collective dissipation. For a single impurity, we highlight interesting ground-state features, focusing in particular on real-space signatures of an emergent length scale associated with an impurity screening cloud. We also present novel non-Markovian many-body effects in the quench dynamics of single- and multiple-impurity systems, including fractional decay around the Fermi level and multi-excitation population trapping due to bound states in the continuum.
Cite
@article{arxiv.2305.11610,
title = {Fermionic matter-wave quantum optics with cold-atom impurity models},
author = {Bennet Windt and Miguel Bello and Eugene Demler and J. Ignacio Cirac},
journal= {arXiv preprint arXiv:2305.11610},
year = {2024}
}
Comments
24 pages, 7 figures; linked public code repository