| Literature DB >> 31345033 |
Mayte Gómez-Castaño1,2, Andrés Redondo-Cubero3, Lionel Buisson1, Jose Luis Pau3, Agustin Mihi2, Serge Ravaine1, Renaud A L Vallée1, Abraham Nitzan4,5, Maxim Sukharev6,7.
Abstract
The physics of collective optical response of molecular assemblies, pioneered by Dicke in 1954, has long been at the center of theoretical and experimental scrutiny. The influence of the environment on such phenomena is also of great interest due to various important applications in, e.g., energy conversion devices. In this Letter, we demonstrate both experimentally and theoretically the spatial modulations of the collective decay rates of molecules placed in proximity to a metal interface. We show in a very simple framework how the cooperative optical response can be analyzed in terms of intermolecular correlations causing interference between the response of different molecules and the polarization induced on a nearby metallic boundary and predict similar collective interference phenomena in excitation energy transfer between molecular aggregates.Entities:
Keywords: Collective fluorescence; energy transfer; superradiance
Year: 2019 PMID: 31345033 DOI: 10.1021/acs.nanolett.9b02521
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189