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Sub-diffractional cavity modes of terahertz hyperbolic phonon polaritons in tin oxide

0301 basic medicine Science Plasmonics and Nanophotonics Research Biomedical Engineering Terahertz radiation Far infrared FOS: Medical engineering 530 7. Clean energy Article 03 medical and health sciences Engineering Photonic Nanojet Enhancement and Applications Phonon Passive Radiative Cooling Technologies Optoelectronics Civil and Structural Engineering Quantum Physics Physics Q Polariton Optics Condensed matter physics Materials science Photonics Physical Sciences Nanophotonics Infrared Surface phonon
DOI: 10.1038/s41467-021-22209-w Publication Date: 2021-03-31T10:03:34Z
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AUTHORS (13)
Flávio H. Feres
Rafael A. Mayer
Lukas Wehmeier
Francisco C. B. Maia
E. R. Viana
Angelo Malachias
Hans A. Bechtel
J. Michael Klopf
Lukas M. Eng
Susanne C. Kehr
J. C. González
Raul O. Freitas
Ingrid D. Barcelos
ABSTRACT
AbstractHyperbolic phonon polaritons have recently attracted considerable attention in nanophotonics mostly due to their intrinsic strong electromagnetic field confinement, ultraslow polariton group velocities, and long lifetimes. Here we introduce tin oxide (SnO2) nanobelts as a photonic platform for the transport of surface and volume phonon polaritons in the mid- to far-infrared frequency range. This report brings a comprehensive description of the polaritonic properties of SnO2 as a nanometer-sized dielectric and also as an engineered material in the form of a waveguide. By combining accelerator-based IR-THz sources (synchrotron and free-electron laser) with s-SNOM, we employed nanoscale far-infrared hyper-spectral-imaging to uncover a Fabry–Perot cavity mechanism in SnO2 nanobelts via direct detection of phonon-polariton standing waves. Our experimental findings are accurately supported by notable convergence between theory and numerical simulations. Thus, the SnO2 is confirmed as a natural hyperbolic material with unique photonic properties essential for future applications involving subdiffractional light traffic and detection in the far-infrared range.
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