An improved calculation of the nuclear level density using equally spaced single nucleon states is presented. The calculation involves a modification of the well-known Laplace transform method. For values of the excitation energy which are integral multiples, K, of the single particle spacing, the new derivation is tested by calculating the number of partitions of K
The general goal of the project is to develop and implement computer codes and input files to comput...
The combinatorial model of nuclear level densities has now reached a level of accuracy comparable to...
Nuclear level densities play an important role in nuclear reactions such as the formation of the com...
An improved calculation of the nuclear level density using equally spaced single nucleon states is p...
A new model for calculating nuclear level densities is investigated. The single-nucleon spectra are ...
In equilibrium statistical mechanics, the density of microstates representing the statistical weight...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
A microscopic method for calculating nuclear level density (NLD) is developed, based on the framewor...
We compute level densities with a nuclear statistical spectroscopy approach. This model is based on ...
Abstract. The modern form of the Moments Method applied to the calculation of the nuclear shell-mode...
The knowledge of nuclear reaction rates is important for studying energy production and nucleosynthe...
A new method for computing the density of states in nuclei using an extrapolated form for the tri-di...
A combinatorial method to calculate total level densities from an arbitrary single-particle level s...
The level density parameters (level density parameter a and energy shift delta) for back-shifted Fer...
In the independent-particle model nucleons move independently in a central potential. There is a wel...
The general goal of the project is to develop and implement computer codes and input files to comput...
The combinatorial model of nuclear level densities has now reached a level of accuracy comparable to...
Nuclear level densities play an important role in nuclear reactions such as the formation of the com...
An improved calculation of the nuclear level density using equally spaced single nucleon states is p...
A new model for calculating nuclear level densities is investigated. The single-nucleon spectra are ...
In equilibrium statistical mechanics, the density of microstates representing the statistical weight...
A microscopic nuclear level-density model is presented. The model is a completely combinatorial (mic...
A microscopic method for calculating nuclear level density (NLD) is developed, based on the framewor...
We compute level densities with a nuclear statistical spectroscopy approach. This model is based on ...
Abstract. The modern form of the Moments Method applied to the calculation of the nuclear shell-mode...
The knowledge of nuclear reaction rates is important for studying energy production and nucleosynthe...
A new method for computing the density of states in nuclei using an extrapolated form for the tri-di...
A combinatorial method to calculate total level densities from an arbitrary single-particle level s...
The level density parameters (level density parameter a and energy shift delta) for back-shifted Fer...
In the independent-particle model nucleons move independently in a central potential. There is a wel...
The general goal of the project is to develop and implement computer codes and input files to comput...
The combinatorial model of nuclear level densities has now reached a level of accuracy comparable to...
Nuclear level densities play an important role in nuclear reactions such as the formation of the com...
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