@misc{10481/96606,
year = {2021},
url = {https://hdl.handle.net/10481/96606},
abstract = {A semiclassical phase-space perspective of band- and topological-insulator regimes
of 2D Dirac materials and normal- and superradiant phases of atom-field interacting
models is given in terms of delocalization, entropies, and quantum correlation measures. From this point of view, the low-energy limit of tight-binding models describing the electronic band structure of topological 2D Dirac materials such as
phosphorene and silicene with tunable band gaps share similarities with Rabi-Dicke
and Jaynes-Cummings atom-field interaction models, respectively. In particular, the
edge state of the 2D Dirac materials in the topological insulator phase exhibits a
Schrödinger's cat structure similar to the ground state of two-level atoms in a cavity
interacting with a one-mode radiation field in the superradiant phase. Delocalization
seems to be a common feature of topological insulator and superradiant phases.},
title = {Analogies between the topological insulator phase of 2D Dirac materials and the superradiant phase of atom-field systems},
doi = {https://doi.org/10.1002/qua.26464},
author = {Calixto Molina, Manuel},
}