Quantum deep field: data-driven wave function, electron density generation, and atomization energy prediction and extrapolation with machine learning

November 16, 2020 · Entered Twilight · 🏛 Physical Review Letters

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Repo contents: .gitignore, LICENSE, README.md, dataset, demo, figure, output, predict, pretrained_model, train

Authors Masashi Tsubaki, Teruyasu Mizoguchi arXiv ID 2011.07923 Category physics.chem-ph Cross-listed cond-mat.mtrl-sci, cs.LG Citations 44 Venue Physical Review Letters Repository https://github.com/masashitsubaki/QuantumDeepField_molecule ⭐ 226 Last Checked 1 month ago

Abstract

Deep neural networks (DNNs) have been used to successfully predict molecular properties calculated based on the Kohn--Sham density functional theory (KS-DFT). Although this prediction is fast and accurate, we believe that a DNN model for KS-DFT must not only predict the properties but also provide the electron density of a molecule. This letter presents the quantum deep field (QDF), which provides the electron density with an unsupervised but end-to-end physics-informed modeling by learning the atomization energy on a large-scale dataset. QDF performed well at atomization energy prediction, generated valid electron density, and demonstrated extrapolation. Our QDF implementation is available at https://github.com/masashitsubaki/QuantumDeepField_molecule.