Litcius/Paper detail

SAPT codes for calculations of intermolecular interaction energies

Javier Garcia, Rafał Podeszwa, Krzysztof Szalewicz

2020The Journal of Chemical Physics74 citationsDOI

Abstract

Symmetry-adapted perturbation theory (SAPT) is a method for calculations of intermolecular (noncovalent) interaction energies. The set of SAPT codes that is described here, the current version named SAPT2020, includes virtually all variants of SAPT developed so far, among them two-body SAPT based on perturbative, coupled cluster, and density functional theory descriptions of monomers, three-body SAPT, and two-body SAPT for some classes of open-shell monomers. The properties of systems governed by noncovalent interactions can be predicted only if potential energy surfaces (force fields) are available. SAPT is the preferred approach for generating such surfaces since it is seamlessly connected to the asymptotic expansion of interaction energy. SAPT2020 includes codes for automatic development of such surfaces, enabling generation of complete dimer surfaces with a rigid monomer approximation for dimers containing about one hundred atoms. These codes can also be used to obtain surfaces including internal degrees of freedom of monomers.

Topics & Concepts

Intermolecular forcePerturbation theory (quantum mechanics)Interaction energyMonomerChemistryCoupled clusterBridging (networking)Cluster (spacecraft)Chemical physicsPhysicsComputer scienceMoleculeQuantum mechanicsPolymerComputer networkOrganic chemistryProgramming languageAdvanced Chemical Physics StudiesMolecular Junctions and NanostructuresFullerene Chemistry and Applications
SAPT codes for calculations of intermolecular interaction energies | Litcius