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We develop fluctuational electrodynamics of hyperbolic metamaterials (HMMs) and establish broadband near-field thermal emission beyond the black-body limit. We predict thermal topological transitions in phonon-polaritonic HMMs paving the way for near-field thermal engineering using metamaterials.
We report the broadband (∼ 25 nm) control of radiative decay rate of colloidal quantum dots by exploiting the flat dispersion of a one-dimensional nonmagnetic metamaterial structure.
We report the broadband (~ 25 nm) enhancement of radiative decay rate of colloidal quantum dots by exploiting the hyperbolic dispersion of a one-dimensional nonmagnetic metamaterial structure.
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