Colloquium: Light scattering by particle and hole arrays

TL;DR

This paper reviews how light interacts with two-dimensional arrays of particles and holes, focusing on phenomena like enhanced transmission and surface modes, supported by models and comparisons to understand underlying physics.

Contribution

It provides a comprehensive review and a simple analytical model to explain light scattering phenomena in particle and hole arrays, including the role of plasmons.

Findings

Enhanced optical transmission in hole arrays

Presence of surface modes in patterned metals

Analytical insights into plasmon contributions

Abstract

This colloquium analyzes the interaction of light with two-dimensional periodic arrays of particles and holes. The enhanced optical transmission observed in the latter and the presence of surface modes in patterned metal surfaces are thoroughly discussed. A review of the most significant discoveries in this area is presented first. A simple tutorial model is then formulated to capture the essential physics involved in these phenomena, while allowing analytical derivations that provide deeper insight. Comparison with more elaborated calculations is offered as well. Finally, hole arrays in plasmon-supporting metals are compared to perforated perfect conductors, thus assessing the role of plasmons in these types of structures through analytical considerations.