The TALYS nuclear reaction code’s Hauser-Feshbach statistical decay model has been adapted in order to calculate prompt fission neutron and $$\gamma $$-ray observables by iterating over deexciting fission fragments. Several fission fragment generators such as GEF, HF$$^{3}$$D, and SPY were employed to provide TALYS with databases. These databases contain standardized tables with fission fragment yields, mean excitation energies and their widths, and average total kinetic energy, as a function of charge and mass number of primary fission fragments. The resulting calculations, including prompt particle multiplicities, spectra, average energies, and independent fission product yields, were compared with experimental and evaluated data. This wo...
AbstractAs output of the Point by Point model (taking into account the entire fission fragment range...
As output of the Point by Point model (taking into account the entire fission fragment range) and of...
Prompt-fission γ rays are responsible for approximately 5% of the total energy released in fission,...
The TALYS nuclear reaction code’s Hauser-Feshbach statistical decay model has been adapted in order ...
In this project, different fission models in the nuclear reaction code TALYS have been compared to G...
We demonstrate the neutron emission and fission product yield calculations using the Hauser–Feshbach...
Codes for the calculation of fission observables are frequently used to describe experimentally obse...
AbstractThe prompt fission gamma spectra (PFGS) and multiplicities (PFGM) are investigated from a Mo...
We performed the calculations of de-excitation of the primary fission fragments by the Hauser-Feshba...
The GEF (" GEneral description of Fission observables ") model code is documented. It describes the ...
Prompt fission neutrons and gamma rays are computed using a Monte Carlo treatment of the s...
AbstractPrompt fission neutrons and γ rays are calculated in the framework of the statistical Hauser...
The CGMF code provides a complete description of the properties of the prompt neutrons and γ rays, e...
The generation of angular momentum in fission is difficult to model, in particular at higher excitat...
The Hauser-Feshbach fission fragment decay model, HF3D, calculates the statistical decay of fission ...
AbstractAs output of the Point by Point model (taking into account the entire fission fragment range...
As output of the Point by Point model (taking into account the entire fission fragment range) and of...
Prompt-fission γ rays are responsible for approximately 5% of the total energy released in fission,...
The TALYS nuclear reaction code’s Hauser-Feshbach statistical decay model has been adapted in order ...
In this project, different fission models in the nuclear reaction code TALYS have been compared to G...
We demonstrate the neutron emission and fission product yield calculations using the Hauser–Feshbach...
Codes for the calculation of fission observables are frequently used to describe experimentally obse...
AbstractThe prompt fission gamma spectra (PFGS) and multiplicities (PFGM) are investigated from a Mo...
We performed the calculations of de-excitation of the primary fission fragments by the Hauser-Feshba...
The GEF (" GEneral description of Fission observables ") model code is documented. It describes the ...
Prompt fission neutrons and gamma rays are computed using a Monte Carlo treatment of the s...
AbstractPrompt fission neutrons and γ rays are calculated in the framework of the statistical Hauser...
The CGMF code provides a complete description of the properties of the prompt neutrons and γ rays, e...
The generation of angular momentum in fission is difficult to model, in particular at higher excitat...
The Hauser-Feshbach fission fragment decay model, HF3D, calculates the statistical decay of fission ...
AbstractAs output of the Point by Point model (taking into account the entire fission fragment range...
As output of the Point by Point model (taking into account the entire fission fragment range) and of...
Prompt-fission γ rays are responsible for approximately 5% of the total energy released in fission,...