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O: Fachverband Oberflächenphysik

O 57: Plasmonics and nanooptics: Light-matter interaction, spectroscopy II

O 57.3: Vortrag

Mittwoch, 11. März 2026, 11:15–11:30, HSZ/0403

Intrinsic plasmon canalization in the natural biaxial van-der-Waals material MoOCl₂ — •Farid Aghashirinov¹, Andrea Manchini², Lin Nan², Giacomo Venturi², Nicola Melchioni², Florian Mangold¹, Bettina Frank¹, Antonio Ambrosio², and Harald Giessen¹ — ¹4-th Physics Institute, University of Stuttgart, Stuttgart, Germany — ²Vectorial Nano-Imaging, Istituto Italiano di Tecnologia, Milano, Italy

We investigate directional near-infrared plasmon polaritons in exfoliated MoOCl₂ flakes on SiO₂ substrates, excited using gold disk nanoantennas and probed with scattering-type scanning near-field optical microscope (s-SNOM). MoOCl₂ is a natural van der Waals material that supports low-loss, in-plane hyperbolic plasmons and exhibits strong optical anisotropy: polarization along the short axis yields metallic behaviour, while alignment with the long axis produces a dielectric response [1]. Using a widely tunable broadband laser from Stuttgart Instruments, we map the polariton dispersion across a broad spectral range and identify distinct propagation regimes. In our work, we observe plasmon-polariton canalization for the first time, where wavefronts propagate without divergence. These measurements highlight MoOCl₂ as a broadband, highly directional natural polaritonic platform.
[1] G. Venturi et al., Nat Commun 15, 9727 (2024)

Keywords: Scattering s-SNOM; 2D van-der-Waals material; Hyperbolic material; Tunable broadband laser; Plasmon canalization