6533b853fe1ef96bd12ac1f4

RESEARCH PRODUCT

Levels of self-consistency in the GW approximation

Nils Erik DahlenRobert Van LeeuwenAdrian Stan

subject

GW approximationSelf consistencyGeneral Physics and AstronomyFOS: Physical sciencesELECTRON-GASGreen's function methodsATOMSMOLECULESQuality (physics)IonizationPhysics - Chemical Physicsionisation potentialWAVE-FUNCTIONSKOOPMANS THEOREMPhysical and Theoretical ChemistryfysiikkaPhysicsChemical Physics (physics.chem-ph)total energyNONEQUILIBRIUM PROCESSESDiatomic moleculeTRANSPORTCondensed Matter - Other Condensed MatterYield (chemistry)GROUND-STATECORRELATION ENERGIESIonization energyAtomic physicsEXTENSIONOther Condensed Matter (cond-mat.other)

description

We perform $GW$ calculations on atoms and diatomic molecules at different levels of self-consistency and investigate the effects of self-consistency on total energies, ionization potentials and on particle number conservation. We further propose a partially self-consistent $GW$ scheme in which we keep the correlation part of the self-energy fixed within the self-consistency cycle. This approximation is compared to the fully self-consistent $GW$ results and to the $G W_0$ and the $G_0W_0$ approximations. Total energies, ionization potentials and two-electron removal energies obtained with our partially self-consistent $GW$ approximation are in excellent agreement with fully self-consistent $GW$ results while requiring only a fraction of the computational effort. We also find that self-consistent and partially self-consistent schemes provide ionization energies of similar quality as the $G_0W_0$ values but yield better total energies and energy differences.

yearjournalcountryeditionlanguage
2009-03-21
http://urn.fi/URN:NBN:fi:jyu-202101121066