Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution

Name: Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution
Creator: Bohayra Mortazavi
Published: 2020-06-08T08:07:33.393Z
Keywords: Machine Learning, Density Functional Theory, Thermal Conductivity, Two-Dimensional Material, Boltzmann Equation

Mortazavi, Bohayra; shapeev, Alexander; Podryabinkin , Evgeny; Zhuang, Xiaoying

doi:10.17632/fmkvzbk3nt.1

Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution

Published: 8 June 2020| Version 1 | DOI: 10.17632/fmkvzbk3nt.1

Contributors:

Bohayra Mortazavi,

,

Description

Data for manuscript, entitled: "Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution" (1) python scripts developed for the ShengBTE/MLIP interface, (2) a guide for passive training of MTPs using the MLIP package, (3) examples of VASP input scripts for the AIMD simulations, (4) samples of untrained MTPs, (5) ShengBTE input files for all the considered examples along with the numerical procedure to extract the anharmonic force constants for every example using the trained MTPs.

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Skolkovo Institute of Science and Technology, Leibniz Universitat Hannover

Accelerating first-principles estimation of thermal conductivity by machine-learning interatomic potentials: A MTP/ShengBTE solution

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