Coupling of an excited molecule to surface plasmons
Abstract
The decay of an excited molecule deposited at distances less than its dominant fluorescence wavelength λF from a metal surface is calculated including the interaction with surface charge-density oscillations. Both nonresonant and resonant cases, ω0a>ωp and ω0∼ωp, are considered for ω0, the electronic transition frequency in the visible part of the electromagnetic spectrum. The plasma frequency ωp determines the dielectric response of a free-electron-gas metal, ε(ω)=1-ωp2ω2, in the region ω<ωp. We find considerable changes from the pure image-theory result given by us earlier, in particular for the molecular transition dipole moment oriented parallel to the metal surface. The coupling to the surface-plasmon excitation spectrum induces a rapidly increasing contribution to the linewidth of the decaying molecule with decreasing distance from the metal surface. As the image result for the case of a molecular transition dipole oriented parallel to the surface tends to zero with decreasing distance, the inclusion of the coupling to surface plasmons drastically affects the lifetime of this configuration. For both cases, i.e., transition dipole parallel and perpendicular to the metal surface, the contribution to the width due to coupling to surface excitations diverges with decreasing distance, leading to dramatic shortening of the lifetime of the decaying molecule due to conversion of the localized electronic energy into surface charge-density oscillations. © 1974 The American Physical Society.