: We present a computational protocol, based on density matrix perturbation theory, to obtain non-adiabatic, frequency-dependent electron-phonon self-energies for molecules and solids. Our approach enables the evaluation of electron-phonon interaction using hybrid functionals, for spin-polarized systems, and the computational overhead to include dynamical and non-adiabatic terms in the evaluation of electron-phonon self-energies is negligible. We discuss results for molecules, as well as pristine and defective solids.
Computational Protocol to Evaluate Electron-Phonon Interactions Within Density Matrix Perturbation Theory / Yang, Han; Govoni, Marco; Kundu, Arpan; Galli, Giulia. - In: JOURNAL OF CHEMICAL THEORY AND COMPUTATION. - ISSN 1549-9626. - 18:10(2022), pp. 6031-6042. [10.1021/acs.jctc.2c00579]
Computational Protocol to Evaluate Electron-Phonon Interactions Within Density Matrix Perturbation Theory
Govoni, Marco
;
2022
Abstract
: We present a computational protocol, based on density matrix perturbation theory, to obtain non-adiabatic, frequency-dependent electron-phonon self-energies for molecules and solids. Our approach enables the evaluation of electron-phonon interaction using hybrid functionals, for spin-polarized systems, and the computational overhead to include dynamical and non-adiabatic terms in the evaluation of electron-phonon self-energies is negligible. We discuss results for molecules, as well as pristine and defective solids.
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