Add to ORKGWe present a numerical study of shear viscosity and thermal conductivity of symmetric nuclear matter, pure neutron matter, and beta-stable nuclear matter, in the framework of the Brueckner theory. The calculation of in-medium cross sections and nucleon effective masses is performed with a consistent two- and three-body interaction. The investigation covers a wide baryon density range as needed in the applications to neutron stars. The results for the transport coefficients in beta-stable nuclear matter are used to make preliminary predictions on the damping time scales of nonradial modes in neutron stars
This investigation explores the nucleonic thermal conductivity of nuclear star matter as it undergoe...
AbstractWithin a relaxation time approach using free nucleon–nucleon cross sections modified by the ...
To be published in Physical Review CThe nuclear mean-field potentials obtained in the Hartree-Fock m...
The diffusive thermal conductivity of neutrons in dense matter [ $\rho \sim (1 {-} 8) \times 10^{14}...
The transport properties of neutron star matter play an important role in many astrophysical process...
We review the calculations of the kinetic coefficients (thermal conductivity, shear viscosity, momen...
We review the effective field theory associated with the superfluid phonons that we use for the stud...
We review the effective field theory associated with the superfluid phonons that we use for the stud...
We calculate total masses and radii of neutron stars (NS) for pure neutron matter and nuclear matter...
We present results from Brueckner-Hartree-Fock calculatons for beta stable neutron star matter with ...
Abstract: We review the nuclear and condensed matter physics underlying the thermal and transport pr...
The transport properties of matter in the interior of rotating neutron stars play a critical role in...
We calculate the electron shear viscosity (determined by Coulomb electron collisions) for a dense ma...
This review focuses on the demonstration of an interrelation between various in-medium effects, whic...
Microscopically, the equation of state (EOS) and other properties of asymmetric nuclear matter at ze...
This investigation explores the nucleonic thermal conductivity of nuclear star matter as it undergoe...
AbstractWithin a relaxation time approach using free nucleon–nucleon cross sections modified by the ...
To be published in Physical Review CThe nuclear mean-field potentials obtained in the Hartree-Fock m...
The diffusive thermal conductivity of neutrons in dense matter [ $\rho \sim (1 {-} 8) \times 10^{14}...
The transport properties of neutron star matter play an important role in many astrophysical process...
We review the calculations of the kinetic coefficients (thermal conductivity, shear viscosity, momen...
We review the effective field theory associated with the superfluid phonons that we use for the stud...
We review the effective field theory associated with the superfluid phonons that we use for the stud...
We calculate total masses and radii of neutron stars (NS) for pure neutron matter and nuclear matter...
We present results from Brueckner-Hartree-Fock calculatons for beta stable neutron star matter with ...
Abstract: We review the nuclear and condensed matter physics underlying the thermal and transport pr...
The transport properties of matter in the interior of rotating neutron stars play a critical role in...
We calculate the electron shear viscosity (determined by Coulomb electron collisions) for a dense ma...
This review focuses on the demonstration of an interrelation between various in-medium effects, whic...
Microscopically, the equation of state (EOS) and other properties of asymmetric nuclear matter at ze...
This investigation explores the nucleonic thermal conductivity of nuclear star matter as it undergoe...
AbstractWithin a relaxation time approach using free nucleon–nucleon cross sections modified by the ...
To be published in Physical Review CThe nuclear mean-field potentials obtained in the Hartree-Fock m...