English

An electrically tunable metaatom for visible light

Optics 2026-04-23 v1

Abstract

Phase-gradient metasurfaces provide powerful wavefront control through two-dimensional arrangement of nanostructures acting as metaatoms. While dynamic tuning forms a major driver for future breakthroughs and applications in this area, current metaatoms are generally static or limited to operation in the infrared. Here, we present a metaatom that is both electrically tunable and operates in the visible. Its function originates from an excitonic absorption band of a dedoped conducting polymer, which together with low background permittivity induces optical metallicity in a selected part of the visible. This allows anisotropic nanostructures to support excitonic resonances along one direction and not the other, promoting polarization-dependent optical response which can be toggled off and on through reversible doping induced by small bias potentials. Our study details the mechanism of these metaatoms and demonstrate their use in electrically tunable phasegradient metasurfaces for visible light, including erasable and rewritable holograms.

Keywords

Cite

@article{arxiv.2604.20605,
  title  = {An electrically tunable metaatom for visible light},
  author = {Janna Wilhelmsen and Longzhu Liu and Harry Miyosi Silalahi and Suraya Kazi and Giancarlo Cincotti and Shangzhi Chen and Dongqing Lin and Yulong Duan and Magnus P. Jonsson},
  journal= {arXiv preprint arXiv:2604.20605},
  year   = {2026}
}
R2 v1 2026-07-01T12:30:31.461Z