English

Terahertz imaging through emissivity control

Optics 2023-12-05 v1 Applied Physics

Abstract

Adoption of terahertz technologies is hindered by the lack of cost-effective THz sources. Here we demonstrate a fundamentally new way to generate and control THz radiation, via spatio-temporal emissivity modulation. By patterning the optical photoexcitation of a surface-passivated silicon wafer, we locally control the free-electron density, and thereby pattern the wafer's emissivity in the THz part of the electromagnetic spectrum. We show how this unconventional source of controllable THz radiation enables a new form of incoherent computational THz imaging. We use it to image various concealed objects, demonstrating this scheme has the penetrating capability of state-of-the-art THz imaging approaches, without the requirement of femto-second pulsed laser sources. Furthermore, the incoherent nature of thermal radiation also ensures the obtained images are free of interference artifacts. Our spatio-temporal emissivity control paves the way towards a new family of long-wavelength structured illumination, imaging and spectroscopy systems.

Keywords

Cite

@article{arxiv.2308.12047,
  title  = {Terahertz imaging through emissivity control},
  author = {Michal Mrnka and Harry Penketh and Ian R. Hooper and Sonal Saxena and Nicholas E. Grant and John D. Murphy and David B. Phillips and Euan Hendry},
  journal= {arXiv preprint arXiv:2308.12047},
  year   = {2023}
}
R2 v1 2026-06-28T12:02:22.898Z