2019
DOI: 10.1002/adts.201800184
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The Hiphive Package for the Extraction of High‐Order Force Constants by Machine Learning

Abstract: The efficient extraction of force constants (FCs) is crucial for the analysis of many thermodynamic materials properties. Approaches based on the systematic enumeration of finite differences scale poorly with system size and can rarely extend beyond third order when input data is obtained from first-principles calculations. Methods based on parameter fitting in the spirit of interatomic potentials, on the other hand, can extract FC parameters from semi-random configurations of high information density and adva… Show more

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Cited by 296 publications
(225 citation statements)
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“…This shows that a strict geometry optimization in ab initio calculations is crucial to obtain quadratic dispersions. It further corroborates the observation that the translational and rotational invariance of the FCs are necessary but not sufficient conditions for finding flexural modes [19,22].…”
supporting
confidence: 87%
See 1 more Smart Citation
“…This shows that a strict geometry optimization in ab initio calculations is crucial to obtain quadratic dispersions. It further corroborates the observation that the translational and rotational invariance of the FCs are necessary but not sufficient conditions for finding flexural modes [19,22].…”
supporting
confidence: 87%
“…Further, we theoretically show that all (freestanding) orthotropic 2DMs exhibit a flexural mode provided that the material is free of homogeneous stresses. The derivations emphasize the role of sum rules for the FCs which reflect the underlying fundamental symmetries of the crystals [19,22]. Our findings are corroborated by considering four representative 2DMs for which we calculate the phonon dispersions from first principles using VASP [23] and PHONOPY [24].…”
supporting
confidence: 68%
“…After discarding the first 1,000 steps for equilibration, about 180 snap shots at a spacing of 25 MD steps were used for training, by least-squares fitting temperature dependent interatomic force constants (TDIFCs) using our in-house hiphive code. 45 Finally, shengBTE was used to calculate the thermal conductivity from the resulting IFCs.…”
Section: Vibrational Spectra and Lattice Thermal Conductivitymentioning
confidence: 99%
“…Depending on material and property of interest the FC expansion must be carried out to different orders. Generally, it is preferable to keep the order as low as possible since the number of independent coefficients quickly increases with expansion order, decreasing symmetry, and number of sites in the unit cell 15 .…”
Section: Introductionmentioning
confidence: 99%
“…Here, we use the HIPHIVE package 15,23 since it is interfaced with machine-learning libraries such as SCIKIT-LEARN that in turn provide efficient implementations of various optimization techniques. In this paper, we present a comparison of linear regression methods and the direct enumeration approach for the extraction of FCs of different order, including second-order FCs for large systems of low symmetry such as defects, third-order FCs for the prediction of the thermal conductivity, as well as higher-order FCs for bulk and surface (see Supplementary Information) systems.…”
Section: Introductionmentioning
confidence: 99%