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Kaplan, F; Harding, M. E; Seiler, C; Weigend, F; Evers, F; van Setten, M. J
Journal of chemical theory and computation, 06/2016, Letnik: 12, Številka: 6Journal Article
We present the formalism and implementation of quasi-particle self-consistent GW (qsGW) and eigenvalue only quasi-particle self-consistent GW (evGW) adapted to standard quantum chemistry packages. Our implementation is benchmarked against high-level quantum chemistry computations (coupled-cluster theory) and experimental results using a representative set of molecules. Furthermore, we compare the qsGW approach for five molecules relevant for organic photovoltaics to self-consistent GW results (scGW) and analyze the effects of the self-consistency on the ground state density by comparing calculated dipole moments to their experimental values. We show that qsGW makes a significant improvement over conventional G 0 W 0 and that partially self-consistent flavors (in particular evGW) can be excellent alternatives.
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