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A simplified charge projection scheme for long-range electrostatics in <i>ab initio</i> QM/MM calculations

Xiaoliang Pan, Kwangho Nam, Evgeny Epifanovsky, Andrew C. Simmonett, Edina Rosta, Yihan Shao

2021The Journal of Chemical Physics31 citationsDOIOpen Access PDF

Abstract

In a previous work [Pan et al., Molecules 23, 2500 (2018)], a charge projection scheme was reported, where outer molecular mechanical (MM) charges [>10 Å from the quantum mechanical (QM) region] were projected onto the electrostatic potential (ESP) grid of the QM region to accurately and efficiently capture long-range electrostatics in ab initio QM/MM calculations. Here, a further simplification to the model is proposed, where the outer MM charges are projected onto inner MM atom positions (instead of ESP grid positions). This enables a representation of the long-range MM electrostatic potential via augmentary charges (AC) on inner MM atoms. Combined with the long-range electrostatic correction function from Cisneros et al. [J. Chem. Phys. 143, 044103 (2015)] to smoothly switch between inner and outer MM regions, this new QM/MM-AC electrostatic model yields accurate and continuous ab initio QM/MM electrostatic energies with a 10 Å cutoff between inner and outer MM regions. This model enables efficient QM/MM cluster calculations with a large number of MM atoms as well as QM/MM calculations with periodic boundary conditions.

Topics & Concepts

ElectrostaticsQM/MMAb initioAb initio quantum chemistry methodsRange (aeronautics)Charge (physics)Periodic boundary conditionsAtomic physicsPhysicsChemistryAtom (system on chip)Molecular physicsMoleculeBoundary value problemQuantum mechanicsMaterials scienceEmbedded systemComputer scienceComposite materialAdvanced Chemical Physics StudiesMachine Learning in Materials ScienceInorganic Fluorides and Related Compounds
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