Add to ORKGThe description of collective motion in nuclei at finite temperature using the framework of the random phase approximation is discussed. We focus on the special case of the isovector response function of hot nuclear matter using various effective Skyrme interactions
The temperature dependence of the symmetry energy and symmetry free energy coefficients of infinite ...
Linearizing the appropriate kinetic equation we derive general response functions including selfcons...
These lectures present the theory of the nuclear response in the Random Phase Approximation (RP A). ...
The dipole response function of nuclear matter at zero and finite temperatures is investigated by em...
The nuclear esponse function of 4°Ca is studied at finite temperature using self-consistent RPA. We ...
We consider the propagation and damping of isovector excitations in heated nuclear matter within the...
The effect of temperature on the evolution of the isovector dipole and isoscalar quadrupole excitati...
Response functions of infinite nuclear matter with arbitrary isospin asymmetry are studied in the fr...
We study if commonly used nucleon-nucleon effective interactions, obtained from fitting the properti...
A thermal extension of the relativistic nuclear field theory is formulated for the nuclear response....
22 Latex pages including 9 figures. Phys. Rev. C (in press)The nuclear collective response at finite...
The properties of cold and hot nuclear matter are studied in the frame of the Brueckner theory, exte...
The finite temperature Hartree-Fock (FTHF) equations are developed to describe a thermally equilibr...
9 pages, 9 figures - PTHThe question of nuclear response functions in a homogeneous medium is examin...
PTHResponse functions in nuclear matter at finite temperature are considered beyond the usual Hartre...
The temperature dependence of the symmetry energy and symmetry free energy coefficients of infinite ...
Linearizing the appropriate kinetic equation we derive general response functions including selfcons...
These lectures present the theory of the nuclear response in the Random Phase Approximation (RP A). ...
The dipole response function of nuclear matter at zero and finite temperatures is investigated by em...
The nuclear esponse function of 4°Ca is studied at finite temperature using self-consistent RPA. We ...
We consider the propagation and damping of isovector excitations in heated nuclear matter within the...
The effect of temperature on the evolution of the isovector dipole and isoscalar quadrupole excitati...
Response functions of infinite nuclear matter with arbitrary isospin asymmetry are studied in the fr...
We study if commonly used nucleon-nucleon effective interactions, obtained from fitting the properti...
A thermal extension of the relativistic nuclear field theory is formulated for the nuclear response....
22 Latex pages including 9 figures. Phys. Rev. C (in press)The nuclear collective response at finite...
The properties of cold and hot nuclear matter are studied in the frame of the Brueckner theory, exte...
The finite temperature Hartree-Fock (FTHF) equations are developed to describe a thermally equilibr...
9 pages, 9 figures - PTHThe question of nuclear response functions in a homogeneous medium is examin...
PTHResponse functions in nuclear matter at finite temperature are considered beyond the usual Hartre...
The temperature dependence of the symmetry energy and symmetry free energy coefficients of infinite ...
Linearizing the appropriate kinetic equation we derive general response functions including selfcons...
These lectures present the theory of the nuclear response in the Random Phase Approximation (RP A). ...