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Representing individual electronic states for machine learning GW band structures of 2D materials

Nikolaj Rørbæk Knøsgaard () and Kristian Sommer Thygesen
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Nikolaj Rørbæk Knøsgaard: Technical University of Denmark
Kristian Sommer Thygesen: Technical University of Denmark

Nature Communications, 2022, vol. 13, issue 1, 1-10

Abstract: Abstract Choosing optimal representation methods of atomic and electronic structures is essential when machine learning properties of materials. We address the problem of representing quantum states of electrons in a solid for the purpose of machine leaning state-specific electronic properties. Specifically, we construct a fingerprint based on energy decomposed operator matrix elements (ENDOME) and radially decomposed projected density of states (RAD-PDOS), which are both obtainable from a standard density functional theory (DFT) calculation. Using such fingerprints we train a gradient boosting model on a set of 46k G0W0 quasiparticle energies. The resulting model predicts the self-energy correction of states in materials not seen by the model with a mean absolute error of 0.14 eV. By including the material’s calculated dielectric constant in the fingerprint the error can be further reduced by 30%, which we find is due to an enhanced ability to learn the correlation/screening part of the self-energy. Our work paves the way for accurate estimates of quasiparticle band structures at the cost of a standard DFT calculation.

Date: 2022
References: View complete reference list from CitEc
Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41467-022-28122-0

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