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Near-Field Spectroscopy of Individual Asymmetric Split-Ring Terahertz Resonators

2023; American Chemical Society; Volume: 10; Issue: 8 Linguagem: Inglês

10.1021/acsphotonics.3c00527

2330-4022

Yuezhen Lu, Lucy L. Hale, Abdullah M. Zaman, Sadhvikas Addamane, Igal Brener, Oleg Mitrofanov, Riccardo Degl’Innocenti,

Terahertz technology and applications

Metamaterial resonators have become an efficient and versatile platform in the terahertz frequency range, finding applications in integrated optical devices, such as active modulators and detectors, and in fundamental research, e.g., ultrastrong light-matter investigations. Despite their growing use, characterization of modes supported by these subwavelength elements has proven to be challenging and it still relies on indirect observation of the collective far-field transmission/reflection properties of resonator arrays. Here, we present a broadband time-domain spectroscopic investigation of individual metamaterial resonators via a THz aperture scanning near-field microscope (a-SNOM). The time-domain a-SNOM allows the mapping and quantitative analysis of strongly confined modes supported by the resonators. In particular, a cross-polarized configuration presented here allows an investigation of weakly radiative modes. These results hold great potential to advance future metamaterial-based optoelectronic platforms for fundamental research in THz photonics.