Add to ORKGThe equation of state of symmetric nuclear matter is addressed starting both from a realistic interaction derived from nucleon-nucleon scattering processes and from a low-momentum effective potential. The approach is based on finite temperature Green's functions. The internal energy per particle is estimated from the summation of diagrams and through the Galitskii-Koltun's sum rule
We review some applications of self-consistent Green's function theory to studies of one- and two-nu...
Realistic nucleon-nucleon interaction induce correlations to the nuclear many-body system which lead...
In this communication we study symmetric nuclear matter for the Brueckner-Hartree-Fock approach, usi...
We study if commonly used nucleon-nucleon effective interactions, obtained from fitting the properti...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We study the symmetric nuclear matter using bare nucleon-nucleon ($NN$) interactions with finite par...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We treat short-range correlations in nuclear matter, induced by the repulsive core of the nucleon-nu...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We present an accurate numerical study of the equation of state of nuclear matter based on realistic...
An effective nucleon-nucleon interaction calculated in nuclear matter from the Bonn potential has be...
The nucleon spectral function in nuclear matter fulfills an energy weighted sum rule. Comparing two ...
Background: The energy weighted sum rules of the single-particle spectral functions provide a quanti...
We review some applications of self-consistent Green's function theory to studies of one- and two-nu...
A variational method of obtaining equation of state (EOS) for symmetric nuclear matter from a densit...
We review some applications of self-consistent Green's function theory to studies of one- and two-nu...
Realistic nucleon-nucleon interaction induce correlations to the nuclear many-body system which lead...
In this communication we study symmetric nuclear matter for the Brueckner-Hartree-Fock approach, usi...
We study if commonly used nucleon-nucleon effective interactions, obtained from fitting the properti...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We study the symmetric nuclear matter using bare nucleon-nucleon ($NN$) interactions with finite par...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We treat short-range correlations in nuclear matter, induced by the repulsive core of the nucleon-nu...
We study the equation of state of symmetric nuclear matter at zero temperature over a wide range of ...
We present an accurate numerical study of the equation of state of nuclear matter based on realistic...
An effective nucleon-nucleon interaction calculated in nuclear matter from the Bonn potential has be...
The nucleon spectral function in nuclear matter fulfills an energy weighted sum rule. Comparing two ...
Background: The energy weighted sum rules of the single-particle spectral functions provide a quanti...
We review some applications of self-consistent Green's function theory to studies of one- and two-nu...
A variational method of obtaining equation of state (EOS) for symmetric nuclear matter from a densit...
We review some applications of self-consistent Green's function theory to studies of one- and two-nu...
Realistic nucleon-nucleon interaction induce correlations to the nuclear many-body system which lead...
In this communication we study symmetric nuclear matter for the Brueckner-Hartree-Fock approach, usi...