International audienceCharged excitations of the oligoacene family of molecules, relevant for astrophysics and technological applications, are widely studied and therefore provide an excellent system for benchmarking theoretical methods. In this work, we evaluate the performance of many-body perturbation theory within the GW approximation relative to new high-quality CCSD(T) reference data for charged excitations of the acenes. We compare GW calculations with a number of hybrid density functional theory starting points and with eigenvalue self-consistency. Special focus is given to elucidating the trend of GW-predicted excitations with molecule length increasing from benzene to hexacene. We find that GW calculations with starting points bas...
International audienceThe GW approximation is nowadays being used to obtain accurate quasiparticle e...
Using many-body perturbation theory within a G 0 W 0 approximation, with a plane wave basis set and ...
The GW method is routinely used to predict charged valence excitations in molecules and solids. Howe...
International audienceCharged excitations of the oligoacene family of molecules, relevant for astrop...
International audienceWe use the GW100 benchmark set to systematically judge the quality of several ...
The GW approximation in electronic structure theory has become a widespread tool for predicting elec...
Using many-body perturbation theory within a G0W0 approximation, with a plane wave basis set and usi...
International audienceMany-body Green's function perturbation theories, such as the GW and Bethe-Sal...
Quasi-particle energies are important in predicting molecular ionization energies and bulk band stru...
The GW method in its most widespread variant takes, as an input, Kohn–Sham (KS) single particle ener...
We present an implementation of G0W0 and eigenvalue-self-consistent GW (evGW) in the Gaussian and pl...
International audienceThe ab initio GW plus Bethe-Salpeter equation (GW-BSE, where G is the one part...
10 pages, 3 figuresInternational audienceWe evaluate the performances of ab initio GW calculations f...
We present first-principles calculations on the vertical ionization potentials (IPs), electron affin...
Molecular crystals are a prototypical class of van der Waals (vdW) bound organic materials with exci...
International audienceThe GW approximation is nowadays being used to obtain accurate quasiparticle e...
Using many-body perturbation theory within a G 0 W 0 approximation, with a plane wave basis set and ...
The GW method is routinely used to predict charged valence excitations in molecules and solids. Howe...
International audienceCharged excitations of the oligoacene family of molecules, relevant for astrop...
International audienceWe use the GW100 benchmark set to systematically judge the quality of several ...
The GW approximation in electronic structure theory has become a widespread tool for predicting elec...
Using many-body perturbation theory within a G0W0 approximation, with a plane wave basis set and usi...
International audienceMany-body Green's function perturbation theories, such as the GW and Bethe-Sal...
Quasi-particle energies are important in predicting molecular ionization energies and bulk band stru...
The GW method in its most widespread variant takes, as an input, Kohn–Sham (KS) single particle ener...
We present an implementation of G0W0 and eigenvalue-self-consistent GW (evGW) in the Gaussian and pl...
International audienceThe ab initio GW plus Bethe-Salpeter equation (GW-BSE, where G is the one part...
10 pages, 3 figuresInternational audienceWe evaluate the performances of ab initio GW calculations f...
We present first-principles calculations on the vertical ionization potentials (IPs), electron affin...
Molecular crystals are a prototypical class of van der Waals (vdW) bound organic materials with exci...
International audienceThe GW approximation is nowadays being used to obtain accurate quasiparticle e...
Using many-body perturbation theory within a G 0 W 0 approximation, with a plane wave basis set and ...
The GW method is routinely used to predict charged valence excitations in molecules and solids. Howe...