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Noninvasive Near‐Field Spectroscopy of Single Subwavelength Complementary Resonators

Lucy L. Hale, Janine Keller, Thomas Siday, Rodolfo I. Hermans, Johannes Haase, John L. Reno, Igal Brener, Giacomo Scalari, Jérôme Faist, Oleg Mitrofanov

2020Laser & Photonics Review18 citationsDOIOpen Access PDF

Abstract

Abstract Subwavelength metallic resonators provide a route to achieving strong light–matter coupling by means of tight confinement of resonant electromagnetic fields. Investigation of such resonators however often presents experimental difficulties, particularly at terahertz (THz) frequencies. A single subwavelength resonator interacts weakly with THz beams, making it difficult to probe it using far‐field methods, whereas arrays of resonators exhibit inter‐resonator coupling, which affect the resonator spectral signature and field confinement. Here, traditional far‐field THz spectroscopy is systematically compared with aperture‐type THz near‐field microscopy for investigating complementary THz resonators. While the far‐field method proves impractical for measuring single resonators, the near‐field technique gives high signal‐to‐noise spectral information, only achievable in the far‐field with resonator arrays. At the same time, the near‐field technique allows to analyze single resonators without significant interaction with the near‐field probe. Furthermore, the near‐field technique allows highly confined fields and surface waves to be mapped in space and time. This information gives invaluable insight into spectral response in resonator arrays. This near‐field microscopy and spectroscopy method enables investigations of strong light–matter coupling at THz frequencies in the single‐resonator regime.

Topics & Concepts

ResonatorTerahertz radiationCoupling (piping)SpectroscopyOptoelectronicsOpticsMaterials scienceTerahertz spectroscopy and technologyMicroscopyCoupling coefficient of resonatorsField (mathematics)PhysicsElectromagnetic fieldSpectral signatureSplit-ring resonatorResonance (particle physics)Electromagnetic radiationNear and far fieldNear-field scanning optical microscopeStrong Light-Matter InteractionsPlasmonic and Surface Plasmon ResearchNear-Field Optical Microscopy
Noninvasive Near‐Field Spectroscopy of Single Subwavelength Complementary Resonators | Litcius