English

Microwave sink using plasma based localized surface plasmons

Classical Physics 2025-02-27 v1 Optics Plasma Physics

Abstract

Overcoming the diffraction limit, meaning focusing waves on a sub-wavelength scale, has received considerable attention for applications involving light and acoustics. Indeed, the intense focusing achieved enhances the interactions between waves and matter, and the improved spatial resolution opens up possibilities in fields such as imaging, detection and communication. In optics, a passive sink may be obtained if the incident light couples to localized surface plasmon (LSP) resonances, resulting in Coherent Perfect Absorption condition. The presence of optical surface plasmons at metal interfaces is due to the angular frequency of metals, which lies in the optical regime due to their high density of free electrons. Plasmas, which consists of ionized gazes with a lower electron density, can support surface plasmons in the microwave regime. Hence, we demonstrate in this paper that sub-wavelength plasmas behave as a passive microwave sink by exciting LSP resonance inside the plasma.

Keywords

Cite

@article{arxiv.2502.19021,
  title  = {Microwave sink using plasma based localized surface plasmons},
  author = {B. Fromont and J. De Rosny and R. Pascaud and N. Lebbe and O. Pascal and J. Sokoloff and L. Liard and T. Delage and A. Saucourt and M. Fink and V. Mazières},
  journal= {arXiv preprint arXiv:2502.19021},
  year   = {2025}
}
R2 v1 2026-06-28T21:58:31.278Z