Nonlinear electron scattering activated by surface plasmon excitation of Ag nanostructures

TL;DR

This paper reports the first experimental observation of nonlinear electron scattering induced by surface plasmon polaritons in silver nanostructures, revealing a quadratic dependence on electric field and suggesting new spectroscopic applications.

Contribution

It introduces the discovery of nonlinear electron scattering stimulated by SPPs in Ag nanostructures, a novel physical process in nanophotonics.

Findings

Quadratic dependence of SPP energy loss on electric field strength

Observation of nonlinear electron scattering in Ag nanostructures

Proposal of a two-step scattering process to explain the effect

Abstract

The discovery of many fascinating new phenomena associated with the surface plasmon polariton (SPP) has triggered the rapid development of nanophotonics and nanoelectronics. We report here the experimental observation of a fundamentally new physical process, nonlinear electron scattering, stimulated by the SPP excitation of Ag nanostructures on graphite surface in scanning probe electron energy loss spectroscopy. The observed intensity of SPP energy loss peak normalized to the elastic scattering intensity shows clearly a quadratic dependence on the external electric field strength generated by the tip-sample bias. The strong coherent nature of the SPP has made the observation possible and a two-step scattering process is proposed to explain this novel nonlinear effect. Our findings shed new light on the nature of SPP and pave the way to new spectroscopic applications.