Lattice anharmonicity and thermal conductivity from compressive sensing of first-principles calculations

Zhou, F · 2014

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High-throughput computational framework for lattice dynamics and thermal transport including high-order anharmonicity: an application to cubic and tetragonal inorganic compounds

cond-mat.mtrl-sci · 2025-07-15 · unverdicted · novelty 7.0

A unified computational framework computes lattice thermal conductivity for 773 cubic and tetragonal inorganic compounds, incorporating higher-order anharmonicity and showing that these effects alter predictions substantially in roughly 40% of cases.

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High-throughput computational framework for lattice dynamics and thermal transport including high-order anharmonicity: an application to cubic and tetragonal inorganic compounds cond-mat.mtrl-sci · 2025-07-15 · unverdicted · none · ref 29
A unified computational framework computes lattice thermal conductivity for 773 cubic and tetragonal inorganic compounds, incorporating higher-order anharmonicity and showing that these effects alter predictions substantially in roughly 40% of cases.

Lattice anharmonicity and thermal conductivity from compressive sensing of first-principles calculations

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