Cavity-enhanced superconductivity
Seminario
Aula: Sala Riunioni - Ore: 12.00
Condividi su:
Programma
Introduce:
Claudio Giannetti, Università Cattolica del Sacro Cuore
Interviene:
Guido PUPILLO
Direttore del Laboratory of Quantum Physics, Université de Strasbourg
Abstract
Strong light-matter interactions are playing an increasingly crucial role in the understanding and engineering of new states of matter with relevance to the fields of quantum optics, quantum information, solid state physics and materials science. In this talk, we discuss how the superconducting transition temperatures of certain high-temperature inorganic (YBCO) and organic superconductors (Rb3C60) can be modified by coupling phonons to the vacuum electromagnetic field of a cavity or plasmonic structure. This is enabled by a novel cooperative effect based on the presence of a strongly coupled vibrational environment allowing for an efficient dressing of the otherwise weakly coupled phonon bands of these compounds. We provide a simple model for the case of organic superconductors. If time remains, we will discuss how similar cooperative effects can be exploited to generate strong non-linearities at the single-particle level in the regime of collective light-matter strong coupling.
[1] A. Thomas et al., “Exploring superconductivity under strong coupling with the vacuum electromagnetic field”, arXiv:1911.01459 (2019)
Documenti utili
Informazioni utili
In collaborazione con:
Facoltà di Scienze matematiche, fisiche e naturali