Observation of Localized Resonant Phonon Polaritons in Biaxial α‐MoO3 Nanoparticles
Daniel Beitner, Asaf Farhi, Ravindra Kumar Nitharwal, Tejendra Dixit, Tzvia Beitner, Shachar Richter, SivaRama Krishnan, Haim Suchowski

TL;DR
Researchers observed new types of light-matter interactions in molybdenum trioxide nanoparticles, which could lead to better infrared imaging and sensing technologies.
Contribution
The study introduces a novel synthesis method and theoretical framework for biaxial nanoparticles supporting mid-infrared phonon polaritons.
Findings
Biaxial α-MoO3 nanoparticles show tunable, high-Q mid-infrared resonances.
A new theoretical model aligns with experimental results for anisotropic particles.
Localized phonon polaritons enable directional and multispectral nanophotonics.
Abstract
Anisotropic subwavelength particles uniquely combine the strong, tunable response of nanostructures with the exotic properties of anisotropic materials, enabling diverse applications in photonics, biomedicine, and magnetism. Anisotropic particles are also prevalent in systems such as ice grains, liquid crystal droplets, and ferromagnetic particles. Nanostructures supporting hyperbolic phonon‐polaritons hold significant promise for infrared applications due to their strong anisotropic optical response. However, previous experiments primarily explored isotropic or uniaxial nanostructures, with eigenmode theories limited to isotropic particles, restricting the understanding and applicability of anisotropic particles. Here, localized phonon resonances in the mid‐infrared spectral region in biaxial nanoparticles with three distinct axial permittivities are observed. Using a novel…
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Taxonomy
TopicsThermal Radiation and Cooling Technologies · Metamaterials and Metasurfaces Applications · Plasmonic and Surface Plasmon Research
