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Physically inspired deep learning of molecular excitations and photoemission spectra

Julia Westermayr, Reinhard J. Maurer

2021Chemical Science64 citationsDOIOpen Access PDF

Abstract

Modern functional materials consist of large molecular building blocks with significant chemical complexity which limits spectroscopic property prediction with accurate first-principles methods. Consequently, a targeted design of materials with tailored optoelectronic properties by high-throughput screening is bound to fail without efficient methods to predict molecular excited-state properties across chemical space. In this work, we present a deep neural network that predicts charged quasiparticle excitations for large and complex organic molecules with a rich elemental diversity and a size well out of reach of accurate many body perturbation theory calculations. The model exploits the fundamental underlying physics of molecular resonances as eigenvalues of a latent Hamiltonian matrix and is thus able to accurately describe multiple resonances simultaneously. The performance of this model is demonstrated for a range of organic molecules across chemical composition space and configuration space. We further showcase the model capabilities by predicting photoemission spectra at the level of the GW approximation for previously unseen conjugated molecules.

Topics & Concepts

Hamiltonian (control theory)QuasiparticleChemical spaceEigenvalues and eigenvectorsMoleculePerturbation theory (quantum mechanics)PhysicsHamiltonian matrixSpectral lineChemical physicsElectronic structureDeep learningStatistical physicsArtificial neural networkPhotoemission spectroscopyMaterials scienceRange (aeronautics)ChemistryGW approximationPerturbation (astronomy)Computational physicsConjugated systemQuantum mechanicsParameter spaceSpace (punctuation)Excited stateMatrix (chemical analysis)ObservableTight bindingProperty (philosophy)NanotechnologyMachine Learning in Materials ScienceAdvanced Chemical Physics StudiesElectron and X-Ray Spectroscopy Techniques
Physically inspired deep learning of molecular excitations and photoemission spectra | Litcius