Theory of non-retarded ballistic surface plasma waves in metal films

Abstract

We present a theory of surface plasma waves in metal films with arbitrary electronic collision rate τ. Both tangential and normal modes are investigated. A universal self-amplification channel for these waves is established as a result of the unique interplay between ballistic electronic motions and boundary effects. The channel is shown to be protected by a general principle and its properties independent of τ. The effects of film thickness and surface roughness are also calculated. Experimental implications, such as Ferrel radiation, are discussed.