GDCh Kolloquium - Professor Dr. Thomas Ebbesen
Hybridizing Light and Matter – Consequences for Chemical and Material Sciences
Over the past decade, the possibility of manipulating material and chemical properties by using hybrid light-matter states has stimulated considerable interest. Such hybrid light-matter states can be generated by strongly coupling the electronic or the vibrational transitions of a material, to the spatially confined electromagnetic field of an optical resonator. Most importantly, this occurs even in the dark because the coupling involves the zero-point electromagnetic fluctuations of the resonator, the vacuum field. After introducing the fundamental concepts, examples of modified properties of strongly coupled systems, such as chemical reactivity, charge and energy transport, and magnetism will be given to illustrate the broad potential of light-matter states.
Over the past decade, the possibility of manipulating material and chemical properties by using hybrid light-matter states has stimulated considerable interest. Such hybrid light-matter states can be generated by strongly coupling the electronic or the vibrational transitions of a material, to the spatially confined electromagnetic field of an optical resonator. Most importantly, this occurs even in the dark because the coupling involves the zero-point electromagnetic fluctuations of the resonator, the vacuum field. After introducing the fundamental concepts, examples of modified properties of strongly coupled systems, such as chemical reactivity, charge and energy transport, and magnetism will be given to illustrate the broad potential of light-matter states.
Zeit
Dienstag, 23.05.23 - 17:00 Uhr
- 18:00 Uhr
Themengebiet
Chemie
Referierende
Thomas W. Ebbesen USIAS & ISIS, University of Strasbourg, France
Zielgruppen
Studierende
Wissenschaftler*innen
Alle Interessierten
Ort
Chemische Institute - Gerhard-Domagk-Str. 1, 53121 Bonn
Raum
Hörsaal 2
Reservierung
nicht erforderlich
Veranstalter
Bonn GDCh
Kontakt