Add to ORKGInternational audienceThe nuclear level-density parameters obtained in the Yukawa folded potential approach are presented. The particle-number averaging ({N} averaging) Strutinsky shell-correction method is used to extract the shell-correction energy and its change with temperature and the macroscopic nuclear energy for 130 spherical even-even nuclei. A liquid-drop type expression is proposed for the level-density parameter. The best agreement is achieved between our results and the phenomenological formula of von Egidy based on a back-shifted Fermi gas model
The influence of using a temperature-dependent pairing term on the back-shifted Fermi gas (BSFG) mod...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...
The level density parameters (level density parameter a and energy shift delta) for back-shifted Fer...
Macroscopic-microscopic calculations have been performed with the Yukawa folded mean field for 134 s...
The knowledge of nuclear reaction rates is important for studying energy production and nucleosynthe...
The knowledge of the nuclear level density is necessary for many practical applications including as...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
We systematically study the nuclear level densities of superheavy nuclei, including odd systems, usi...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
This paper addresses issues associated with the use of nuclear level density models in calculations ...
© 2020, Allerton Press, Inc. Abstract: Level densities of superheavy nuclei with Z = 112–120 in the ...
Abstract. The modern form of the Moments Method applied to the calculation of the nuclear shell-mode...
Nuclear level density calculations are performed using a model of fermions interacting via the pairi...
An empirical model for calculating level densities of closed and near- closed shell nuclei has been ...
The influence of using a temperature-dependent pairing term on the back-shifted Fermi gas (BSFG) mod...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...
The level density parameters (level density parameter a and energy shift delta) for back-shifted Fer...
Macroscopic-microscopic calculations have been performed with the Yukawa folded mean field for 134 s...
The knowledge of nuclear reaction rates is important for studying energy production and nucleosynthe...
The knowledge of the nuclear level density is necessary for many practical applications including as...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
We systematically study the nuclear level densities of superheavy nuclei, including odd systems, usi...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
This paper addresses issues associated with the use of nuclear level density models in calculations ...
© 2020, Allerton Press, Inc. Abstract: Level densities of superheavy nuclei with Z = 112–120 in the ...
Abstract. The modern form of the Moments Method applied to the calculation of the nuclear shell-mode...
Nuclear level density calculations are performed using a model of fermions interacting via the pairi...
An empirical model for calculating level densities of closed and near- closed shell nuclei has been ...
The influence of using a temperature-dependent pairing term on the back-shifted Fermi gas (BSFG) mod...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...
Contributions to the nuclear level density from a deformed core and from surface vibrations are disc...