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Hamiltonian optics of hyperbolic polaritons in nanogranules

arXiv:1502.06524 · doi:10.1021/acs.nanolett.5b00814

Abstract

Semiclassical quantization rules and numerical calculations are applied to study polariton modes of materials whose permittivity tensor has principal values of opposite sign (so-called hyperbolic materials). The spectra of volume- and surface-confined polaritons are computed for spheroidal nanogranules of hexagonal boron nitride, a natural hyperbolic crystal. The field distribution created by polaritons excited by an external dipole source is predicted to exhibit ray-like patterns due to classical periodic orbits. Near-field infrared imaging and Purcell-factor measurements are suggested to test these predictions.

Changes made to improve presentation and update references. Main text: 6 pages, 6 figures. Supplementary: 12 pages, 6 figures