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Phonon Decay in Nanostructures (poster): Computational Study

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Patterson, R.
Wan, Z.
Veettil, B. P.
Konig, D.
Conibeer, G.

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Phonon dispersion relations and in core-shell quantum dot superlattices and periodic arrays of gas-filled nanopores have been computed numerically in the harmonic approximation. Core-shell quantum dot superlattices show potential to inhibit first order phonon decay. Outcomes for nanoporous systems depend strongly on surface and gas-phase interactions. Phonon decay is inhibited in idealized cases. A light absorbing material with low probability for phonon decay is critical to achieving the high efficiencies expected from the hot carrier solar cell.

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