Semilocalization of disordered spins in cavity QED

QUEST Center event
No
Speaker
Guido Pupillo -University of Strasbourg
Date
29/12/2022 - 13:30 - 12:30Add to Calendar 2022-12-29 12:30:00 2022-12-29 13:30:00 Semilocalization of disordered spins in cavity QED 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, solid state physics, chemistry and materials science. Experiments have shown that significant modifications of material properties and transport can occur in a cavity in the regime of collective strong light-matter coupling even without external irradiation – “in the dark”. Theoretical modeling of these effects is often impaired by the large number of relevant degrees of freedom in experiments and the subtle nature of light-matter interactions in a cavity. In this talk we choose to focus on paradigmatic models for disordered spins coupled to the photon field of cavity and discuss how collective light matter interactions can dramatically alter the many-particle spin wavefunctions in the limit of vanishingly small photon numbers. Subtle, permanent changes in the wavefunctions result from the combined effects of vacuum hybridization and long-range cavity-mediated couplings between the spins. A surprising, general, result is the realization of “semilocalization”, an elusive effect usually associated to critical states of Anderson-like transitions. We discuss possible implications for energy transport mediated by collective light-matter dark states in molecular physics and quantum optical systems.  Conference room on the 0th floor of Resnick building Department of Physics physics.dept@mail.biu.ac.il Asia/Jerusalem public
Place
Conference room on the 0th floor of Resnick building
Abstract

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, solid state physics, chemistry and materials science. Experiments have shown that significant modifications of material properties and transport can occur in a cavity in the regime of collective strong light-matter coupling even without external irradiation – “in the dark”. Theoretical modeling of these effects is often impaired by the large number of relevant degrees of freedom in experiments and the subtle nature of light-matter interactions in a cavity. In this talk we choose to focus on paradigmatic models for disordered spins coupled to the photon field of cavity and discuss how collective light matter interactions can dramatically alter the many-particle spin wavefunctions in the limit of vanishingly small photon numbers. Subtle, permanent changes in the wavefunctions result from the combined effects of vacuum hybridization and long-range cavity-mediated couplings between the spins. A surprising, general, result is the realization of “semilocalization”, an elusive effect usually associated to critical states of Anderson-like transitions. We discuss possible implications for energy transport mediated by collective light-matter dark states in molecular physics and quantum optical systems. 

Last Updated Date : 23/12/2022