VeranstaltungenDetails

Vortragende Person/Vortragende Personen:
Prof. Dr. Peter RablWalther-Meißner-Institut, BayerischeAkademie d. Wissenschaften, Technische Universität München

The structure of atoms, molecules and solids is mainly determined by static Coulomb forces, while the coupling to the quantized degrees of freedom of the electromagnetic field plays only a secondary role. Recently, it has been speculated that this general rule can be overcome in the context of cavity quantum electrodynamics (QED) [1,2], where the coupling of dipoles to a single field mode can exceed the bare energy of the photon itself. Under these conditions, light-matter interactions become non-perturbative [3], as characterized by an effective finestructureconstant of order unity. In this seminar I will give a basic introduction to this extreme coupling regime of cavity QED and explain how vacuum-induced many-body effects can lead to novel ground state phases in QED [3-5], which are the opposite of what has been assumed so far. Beyond a purely fundamental interest, these general mechanisms can be important for potential applications, ranging from cavity-assisted chemistry to quantum technologies based on ultrastronglycoupled circuit QED systems.
•[1] F. Schlawin, D. M. Kennes, M. A. Sentef, Applied Physics Reviews 9, 011312 (2022).
•[2] P. Forn-Diaz, L. Lamata, E. Rico, J. Kono, and E. Solano, Rev. Mod. Phys. 91, 025005 (2019).
•[3] D. De Bernardis, T. Jaako, and P. Rabl, Phys. Rev. A 97, 043820 (2018).
•[4] F. Armata, G. Calajo, T. Jaako, M. S. Kim, and P. Rabl, Phys. Rev. Lett. 119, 183602 (2017).
•[5] M. Schuler, D. De Bernardis, A. M. Läuchli, and P. Rabl, SciPostPhys. 9, 066 (2020).