Cavity Control of Quantum Materials

Christian J Eckhardt; Giacomo Passetti; Moustafa Othman; Christoph Karrasch; Fabio Cavaliere; Michael A Sentef; Dante M Kennes

Cavity Control of Quantum Materials

ORAL

Abstract

Coupling a material to an optical cavity might allow for ultrafast control of quantum materials through the light-matter interaction. To illustrate ways in which material properties could be altered, we present an exactly solvable model for a solid in a cavity and discuss its basic features like the squeezing of the photon in the GS or quantum analogs to Floquet theory.[1] Furthermore, we warn that approximatins to the light-matter coupling have to be taken with care as they can easily lead to a false superradiant phase, similar to the paradigmatic case of the Dicke model. Additionally, we study the effects of the cavity on correlated phases of matter such as charge density waves or superconductivity.

[1] C. J. Eckhardt and G. Passetti et al., arXiv:2107.12236, 2021

March 15, 2022, 2:42 PM – March 15, 2022, 2:54 PM

Publication: https://arxiv.org/abs/2107.12236

Presenters

Christian J Eckhardt

Max Planck Institute for the Structure &, RWTH Aachen / MPSD

Authors

Christian J Eckhardt

Max Planck Institute for the Structure &, RWTH Aachen / MPSD
Giacomo Passetti

RWTH Aachen
Moustafa Othman

TU Braunschweig
Christoph Karrasch

Technical University Braunschweig, TU Braunschweig
Fabio Cavaliere

Universita di Genova
Michael A Sentef

Max Planck Institute for the Structure & Dynamics of Matter, MPSD, Max Planck Institute for the Structure &
Dante M Kennes

RWTH Aachen University, RWTH Aachen University, Max Planck Institute for the Structure and Dynamics of Matter Hamburg, RWTH Aachen / MPSD