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A reduced cost four-component relativistic coupled cluster method based on natural spinors

Somesh Chamoli, Kshitijkumar A. Surjuse, Bhavnesh Jangid, Malaya K. Nayak, Achintya Kumar Dutta

2022The Journal of Chemical Physics21 citationsDOI

Abstract

We present the theory, implementation, and benchmark results for a frozen natural spinors based reduced cost four-component relativistic coupled cluster method. The natural spinors are obtained by diagonalizing the one-body reduced density matrix from a relativistic second-order Møller-Plesset calculation based on a four-component Dirac-Coulomb Hamiltonian. The correlation energy in the coupled cluster method converges more rapidly with respect to the size of the virtual space in the frozen natural spinor basis than that observed in the standard canonical spinors obtained from the Dirac-Hartree-Fock calculation. The convergence of properties is not smooth in the frozen natural spinor basis. However, the inclusion of the perturbative correction smoothens the convergence of the properties with respect to the size of the virtual space in the frozen natural spinor basis and greatly reduces the truncation errors in both energy and property calculations. The accuracy of the frozen natural spinor based coupled cluster methods can be controlled by a single threshold and is a black box to use.

Topics & Concepts

SpinorCoupled clusterHamiltonian (control theory)Basis (linear algebra)PhysicsDirac equationDirac operatorQuantum mechanicsMathematicsMathematical physicsGeometryMathematical optimizationMoleculeAdvanced Chemical Physics StudiesNuclear physics research studiesAdvanced NMR Techniques and Applications
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