Optimized Quantum Drude Oscillators for Atomic and Molecular Response Properties

The quantum Drude oscillator (QDO) is an efficient yet accurate coarse-grained approach that has been widely used to model electronic and optical response properties of atoms and molecules, as well as polarization and dispersion interactions between them. Three effective parameters (frequency, mass,...

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Veröffentlicht in:	arXiv.org 2022-12
Hauptverfasser:	Góger, Szabolcs, Khabibrakhmanov, Almaz, Vaccarelli, Ornella, Fedorov, Dmitry V, Tkatchenko, Alexandre
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Sprache:	eng
Schlagworte:	Dispersion Mathematical models Optical properties Oscillators Parameterization Parameters Periodic table Polarization
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description	The quantum Drude oscillator (QDO) is an efficient yet accurate coarse-grained approach that has been widely used to model electronic and optical response properties of atoms and molecules, as well as polarization and dispersion interactions between them. Three effective parameters (frequency, mass, charge) fully characterize the QDO Hamiltonian and are adjusted to reproduce response properties. However, the soaring success of coupled QDOs for many-atom systems remains fundamentally unexplained and the optimal mapping between atoms/molecules and oscillators has not been established. Here, we present an optimized parametrization (OQDO) where the parameters are fixed by using only dipolar properties. For the periodic table of elements as well as small molecules, our OQDO model accurately reproduces atomic (spatial) polarization potentials and multipolar dispersion coefficients, elucidating the high promise of the presented model in the development of next-generation quantum-mechanical force fields for (bio)molecular simulations.
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subjects	Dispersion Mathematical models Optical properties Oscillators Parameterization Parameters Periodic table Polarization
title	Optimized Quantum Drude Oscillators for Atomic and Molecular Response Properties
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