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Hyperbolic phonon polaritons with positive and negative phase velocities in suspended <b> <i>α</i> </b>-MoO3

Jialiang Shen, Zhiren Zheng, Thao Dinh, Chuanyu Wang, Mingyuan Chen, Pengyu Chen, Qiong Ma, Pablo Jarillo‐Herrero, Lixing Kang, Siyuan Dai

2022Applied Physics Letters22 citationsDOIOpen Access PDF

Abstract

Sample suspension is a valuable method to improve the mechanical, thermal, electronic, and optical properties of low-dimensional materials. In terms of confined light-matter waves—the polaritons, sample suspension can elongate the wavelength of polaritons with a positive phase velocity. Previous work demonstrates a wavelength elongation of ∼10% for hyperbolic phonon polaritons (HPPs) in uniaxial crystals of hexagonal boron nitride (hBN). In this work, we report the alteration of HPPs in biaxial α-phase molybdenum trioxide (α-MoO3) by sample suspension. Our combined infrared nano-imaging experiments and electromagnetic theory reveal a wavelength elongation &amp;gt; 60% and a propagation length increase &amp;gt; 140%, due to the simultaneous wavelength elongation and dissipation elimination in the suspended specimen. We have also examined HPPs in α-MoO3 with a negative phase velocity. The sample suspension shortens the HPP wavelength and simultaneously reduces the dissipation due to the unique permittivity tensor. The HPPs with improved figures of merits in the suspended specimen may be developed for nano-polaritonic circuits, biochemical sensing, emission engineering, and energy transfer.

Topics & Concepts

PolaritonMaterials sciencePhononSuspension (topology)WavelengthPhase velocityPhase (matter)Group velocityDissipationOptoelectronicsCondensed matter physicsOpticsChemistryPhysicsMathematicsOrganic chemistryThermodynamicsPure mathematicsHomotopyThermal Radiation and Cooling TechnologiesPlasmonic and Surface Plasmon ResearchMechanical and Optical Resonators
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