Add to ORKGThe self-consistent Green's function method is applied to 16O using a G-matrix and Vucom as effective interactions, both derived from the Argonne v18 potential. The present calculations are performed in a larger model space than previously possible. The experimental single particle spectra obtained with the G-matrix are essentially independent of the oscillator length of the basis. The results shows that Vucom better reproduces spin-orbit splittings but tends to overestimate the gap at the Fermi energy
The 16O spectrum is investigated microscopically in a multiconfiguration generator-coordinate basis,...
International audienceSecond RPA calculations with a Skyrme force are performed to describe both hig...
Nuclear spectra of A = 14, 18, 38, 42, 206 and 208 nuclei were calculated using free reaction matric...
AbstractThe self-consistent Green's function method is applied to 16O using a G-matrix and VUCOM as ...
The self-consistent Green's function method is applied to 16O using a G-matrix and VUCOM as effectiv...
A free reaction matrix obtained from nucleon-nucleon scattering data was used as a residual particle...
We present results for charge form factors, the point-proton, charge, and single-nucleon momentum di...
The Green's function method in the Quasiparticle Time Blocking Approximation is applied to nuclear e...
We present results for charge form factors, the point-proton, charge, and single-nucleon momentum di...
The binding energies of the ground states and several excited states related to single-particle and ...
The Green’s function method in the Quasiparticle Time Blocking Approximation is applied to nuclear e...
The Faddeev technique is employed to study the influence of both particle-particle and particle-hole...
Recent debate considering the importance of combining the GW approach to the electron gas with verte...
Starting from constrained Skyrme-mean-field calculations, the low-energy excitation spectrum of 16O ...
The single particle energies in O-17 were studied within the framework of the folded diagram many-bo...
The 16O spectrum is investigated microscopically in a multiconfiguration generator-coordinate basis,...
International audienceSecond RPA calculations with a Skyrme force are performed to describe both hig...
Nuclear spectra of A = 14, 18, 38, 42, 206 and 208 nuclei were calculated using free reaction matric...
AbstractThe self-consistent Green's function method is applied to 16O using a G-matrix and VUCOM as ...
The self-consistent Green's function method is applied to 16O using a G-matrix and VUCOM as effectiv...
A free reaction matrix obtained from nucleon-nucleon scattering data was used as a residual particle...
We present results for charge form factors, the point-proton, charge, and single-nucleon momentum di...
The Green's function method in the Quasiparticle Time Blocking Approximation is applied to nuclear e...
We present results for charge form factors, the point-proton, charge, and single-nucleon momentum di...
The binding energies of the ground states and several excited states related to single-particle and ...
The Green’s function method in the Quasiparticle Time Blocking Approximation is applied to nuclear e...
The Faddeev technique is employed to study the influence of both particle-particle and particle-hole...
Recent debate considering the importance of combining the GW approach to the electron gas with verte...
Starting from constrained Skyrme-mean-field calculations, the low-energy excitation spectrum of 16O ...
The single particle energies in O-17 were studied within the framework of the folded diagram many-bo...
The 16O spectrum is investigated microscopically in a multiconfiguration generator-coordinate basis,...
International audienceSecond RPA calculations with a Skyrme force are performed to describe both hig...
Nuclear spectra of A = 14, 18, 38, 42, 206 and 208 nuclei were calculated using free reaction matric...