Fluorescence quenching in graphene: a fundamental ruler and evidence for transverse plasmons
arXiv:1108.1160 · doi:10.1103/PhysRevB.84.165438
Abstract
Graphene's fluorescence quenching is studied as a function of distance. Transverse decay channels, full retardation and graphene-field coupling to all orders are included, extending previous instantaneous results. For neutral graphene, a virtually exact analytical expression for the fluorescence yield is derived, valid for arbitrary distances and only based on the fine structure constant $α$, the fluorescent wavelength $λ$, and distance $z$. Thus graphene's fluorescence quenching measurements provide a fundamental distance ruler. For doped graphene and at appropriate energies, the fluorescence yield at large distances is dominated by transverse plasmons, providing a platform for their detection.
6 pages, 2 figures