Strong light-matter coupling using arrays of nanoantennas

ORAL

Abstract

Metallic nanostructures have increasingly been applied as a platform for exploring the physics of strong-light matter coupling, through their ability to confine light leading to large local fields. Recent attention along this theme has been focused on molecular systems at room temperature, resulting in several exciting observations arising from the hybridization of photonic modes both with excitons and phonons to form quasi-particles known as polaritons. In this contribution we focus on strong-coupling between molecules and the resonances supported by periodic arrays of nanoantennas. These planar arrays define open cavities, with a dual benefit of broad tuneability and unique dispersions, and we will highlight recent work regarding polariton lasing from these structures.

*This research was supported by the NWO through the project LEDMAP of the STW and through the Industrial Partnership Program Nanophotonics for Solid State Lighting between Philips and the Foundation for Fundamental Research on Matter. This work has been also funded by the ERC (ERC-2011-AdG proposal No. 29

Presenters

  • Alexei Halpin

    • DIFFER - Dutch Institute for Fundamental Energy Research

Authors

  • Mohammad Ramezani

    • DIFFER - Dutch Institute for Fundamental Energy Research

  • Alexei Halpin

    • DIFFER - Dutch Institute for Fundamental Energy Research

  • Antonio Fernandez-Dominguez

    • Universidad Autónoma de Madrid

  • Johannes Feist

    • Universidad Autónoma de Madrid

  • Quynh Le Van

    • DIFFER - Dutch Institute for Fundamental Energy Research

  • Said Rahimzadeh-Kalaleh Rodriguez

    • AMOLF

  • Francisco Garcia Vidal

    • Universidad Autónoma de Madrid

  • Jaime Gomez Rivas

    • DIFFER - Dutch Institute for Fundamental Energy Research