Surface Plasmons in the Continuum
Abstract
The interest to foster plasmonic applications at energies in the ultra-violet, has escalated research initiatives in clusters of unconventional plasmonic materials like aluminum and indium,for which the surface-plasmon resonance appears above the ionization potential. Naturally, the quantum mechanical description calls for the incorporation of the ionization process, thereby making the ab initio calculations challenging. We present a robust approach within the time-evolution formalism of the time-dependent density-functional theory to calculate surface plasmon resonance in the continuum of metal clusters. Using the much studied Al as a system of reference, we show that accurate description of the continuum and of the ionization of the cluster allow to capture a broad surface-plasmon in the UV. Application of this approach in aluminum clusters has given the size-dependent evolution from discrete spectral features in Al to the surface-plasmon in larger clusters in the deep ultra-violet.
Keywords
Cite
@article{arxiv.2604.12008,
title = {Surface Plasmons in the Continuum},
author = {Mohit Chaudhary and Hans-Christian Weissker and Daniele Toffoli and Mauro Stener and Victor Despré and Franck Rabilloud and Jean Lermé and Rajarshi Sinha-Roy},
journal= {arXiv preprint arXiv:2604.12008},
year = {2026}
}