Landau damping and lifetime oscillation of surface plasmons in metallic thin films studied in a jellium slab model
Journal article, 2008

The lifetime of surface plasmons in metallic thin films has been calculated using linear response theory and time-dependent local density approximation. The linewidth due to Landau damping is found to depend exponentially on the film thickness. It exhibits quantum oscillations in ultrathin films with a period that is about three times longer than the universal period λF/2 observed in other quantities. This period results from the dynamical Friedel oscillations in the collective excitation normal to the films. Its finding has general implications in quantum control of nanoplasmons and their mediated processes across the films and on their surfaces.

Thickness dependence

Surface plasmon lifetime

Metallic thin films

Quantum size effects

Surface plasmon

Author

Zhe Yuan

Chalmers, Applied Physics, Materials and Surface Theory

Shiwu Gao

University of Gothenburg

Surface Science

0039-6028 (ISSN)

Vol. 602 2 460-

Subject Categories

Condensed Matter Physics

DOI

10.1016/j.susc.2007.10.040

More information

Created

10/6/2017