: We present an implementation of G0W0 calculations including spin-orbit coupling (SOC) enabling investigations of large systems, with thousands of electrons, and we discuss results for molecules, solids, and nanocrystals. Using a newly developed set of molecules with heavy elements (called GW-SOC81), we find that, when based upon hybrid density functional calculations, fully relativistic (FR) and scalar-relativistic (SR) G0W0 calculations of vertical ionization potentials both yield excellent performance compared to experiment, with errors below 1.9%. We demonstrate that while SR calculations have higher random errors, FR calculations systematically underestimate the VIP by 0.1 to 0.2 eV. We further verify that SOC effects may be well appr...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
Accurate models of electron correlation are key to understanding and predicting important physical c...
We present an implementation of G0W0 calculations including spin-orbit coupling (SOC) enabling inves...
We present an implementation of <i>G</i><sub>0</sub><i>W</i><sub>0</sub> calculations including spin...
We present a relativistic correction scheme to improve the accuracy of 1s core-level binding energie...
We present an accurate approach to compute X-ray photoelectron spectra based on the GW Green's funct...
The GW approximation of many-body perturbation theory is an accurate method for computing electron a...
A prerequisite to characterize magnetic materials is the capability to describe systems containing u...
Two self-consistent schemes involving Hedin's $GW$ approximation are studied for a set of sixteen di...
We present GW calculations of molecules, ordered and disordered solids and interfaces, which employ ...
International audienceWe use the GW100 benchmark set to systematically judge the quality of several ...
Computing the $GW$ quasiparticle bandstructure and Bethe-Salpeter Equation (BSE) absorption spectra ...
We derive a low-scaling G0W0 algorithm for molecules using pair atomic density fitting (PADF) and an...
The GW approximation in electronic structure theory has become a widespread tool for predicting elec...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
Accurate models of electron correlation are key to understanding and predicting important physical c...
We present an implementation of G0W0 calculations including spin-orbit coupling (SOC) enabling inves...
We present an implementation of <i>G</i><sub>0</sub><i>W</i><sub>0</sub> calculations including spin...
We present a relativistic correction scheme to improve the accuracy of 1s core-level binding energie...
We present an accurate approach to compute X-ray photoelectron spectra based on the GW Green's funct...
The GW approximation of many-body perturbation theory is an accurate method for computing electron a...
A prerequisite to characterize magnetic materials is the capability to describe systems containing u...
Two self-consistent schemes involving Hedin's $GW$ approximation are studied for a set of sixteen di...
We present GW calculations of molecules, ordered and disordered solids and interfaces, which employ ...
International audienceWe use the GW100 benchmark set to systematically judge the quality of several ...
Computing the $GW$ quasiparticle bandstructure and Bethe-Salpeter Equation (BSE) absorption spectra ...
We derive a low-scaling G0W0 algorithm for molecules using pair atomic density fitting (PADF) and an...
The GW approximation in electronic structure theory has become a widespread tool for predicting elec...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
The GW-technology corrects the Kohn−Sham (KS) single particle energies and single particle states fo...
Accurate models of electron correlation are key to understanding and predicting important physical c...