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Addressing the System-Size Dependence of the Local Approximation Error in Coupled-Cluster Calculations

Ahmet Altun, Soumen Ghosh, Christoph Riplinger, Frank Neese, Giovanni Bistoni

2021The Journal of Physical Chemistry A40 citationsDOIOpen Access PDF

Abstract

Over the last two decades, the local approximation has been successfully used to extend the range of applicability of the "gold standard" singles and doubles coupled-cluster method with perturbative triples CCSD(T) to systems with hundreds of atoms. The local approximation error grows in absolute value with the increasing system size, i.e., by increasing the number of electron pairs in the system. In this study, we demonstrate that the recently introduced two-point extrapolation scheme for approaching the complete pair natural orbital (PNOs) space limit in domain-based pair natural orbital CCSD(T) calculations drastically reduces the dependence of the error on the system size, thus opening up unprecedented opportunities for the calculation of benchmark quality relative energies for large systems.

Topics & Concepts

ExtrapolationApproximation errorCoupled clusterLimit (mathematics)Cluster (spacecraft)Benchmark (surveying)PhysicsSpace (punctuation)Range (aeronautics)Statistical physicsMathematicsQuantum mechanicsAlgorithmStatisticsMathematical analysisMoleculeComputer scienceMaterials scienceGeodesyOperating systemComposite materialGeographyProgramming languageAdvanced Chemical Physics StudiesMachine Learning in Materials ScienceInorganic Chemistry and Materials
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