Variational pseudo-self-interaction-corrected density functional approach to the ab initio description of correlated solids and molecules

Citation

A. Filippetti, C. D. Pemmaraju, S. Sanvito, P. Delugas, D. Puggioni, and Vincenzo Fiorentini, Variational pseudo-self-interaction-corrected density functional approach to the ab initio description of correlated solids and molecules, Physical Review B, 84, 19, 2011, 195127

Abstract

We present a variational pseudo self-interaction correction density functional approach (VPSIC) to the ab initio theoretical description of correlated solids and molecules. The approach generalizes previous nonvariational versions based on plane waves (pseudo self-interaction correction) or atomic orbital (atomic self-interaction correction). The VPSIC approach provides well-defined total energies and forces and enables structural optimization and dynamics, aside from providing high-quality electronic-structure-related properties as the previous methods. A variety of demanding test cases, including nonmagnetic and magnetic correlated oxides (e. g., manganites and d(1) titanates) and a large database of molecules, indicate a high accuracy of the method in predicting structural and electronic properties. This represents a considerable improvement over standard local density functionals at a similar computational cost.

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Sponsor: European Commission
Grant Number: 233553

Sponsor: European Commission
Grant Number: 228989

Sponsor: Science Foundation Ireland (SFI)
Grant Number: 07/IN.1/I945

Type of material: Journal Article