Possible self-amplification channel for surface plasma waves

TL;DR

This paper theoretically uncovers an intrinsic amplification mechanism for surface plasma waves in collision-less conditions, potentially reducing reliance on external amplifiers and advancing applications in plasmonics.

Contribution

It reveals a previously unknown intrinsic amplification channel for SPWs and provides an analytical calculation of its rate, offering new insights into SPW behavior.

Findings

Identification of an intrinsic amplification channel for SPWs

Analytical calculation of the amplification rate

Potential implications for plasmonic device efficiency

Abstract

Surface plasma waves (SPWs) have been extensively studied in the past two decades with a promise for many applications. However, the effort has so far been met with limited success. It is widely believed that a major caveat lies with the energy losses experienced by SPWs during their propagation. To compensate for the losses, amplifiers have been designed, which are all extrinsic and need an external agent to supply the energy. Here we theoretically show that there exists an intrinsic amplification channel for SPWs in the collision-less limit. We pin down the origin of this channel and analytically calculate the amplification rate. Our finding unveils a hitherto unchartered yet fundamental property of SPWs and may bear far-reaching practical consequences.