We implement fission fragment yields, calculated using Brownian shape-motion on a macroscopic-microscopic potential energy surface in six dimensions, into the Hauser-Feshbach statistical decay code CGMF. This combination allows us to test the impact of utilizing theoretically-calculated fission fragment yields on the subsequent prompt neutron and γ-ray emission. We draw connections between the fragment yields and the total kinetic energy TKE of the fission fragments and demonstrate that the use of calculated yields can introduce a difference in the 〈TKE〉 and, thus, the prompt neutron multiplicity
AbstractThe prompt neutron and gamma emission from fission fragments are investigated through the Mo...
The de-excitation process of primary fission fragments can be simulated with the FIFRELIN Monte Carl...
Abstract. The decay of fission fragments is studied through Monte Carlo Hauser-Feshbach model calcul...
We implement fission fragment yields, calculated using Brownian shape-motion on a macroscopic-micros...
We demonstrate the neutron emission and fission product yield calculations using the Hauser–Feshbach...
AbstractPrompt fission neutrons and γ rays are calculated in the framework of the statistical Hauser...
The CGMF code implements the Hauser-Feshbach statistical nuclear reaction model to follow the de-exc...
The Hauser-Feshbach fission fragment decay model, HF3D, calculates the statistical decay of fission ...
The CGMF code provides a complete description of the properties of the prompt neutrons and γ rays, e...
We demonstrate calculations of the prompt neutron emission, the independent and cumulative fission p...
Fission product yields have been inferred using γ-ray spectroscopy for several decades. Typically, t...
Fission product yields have been inferred using γ-ray spectroscopy for several decades. Typically, t...
We performed the calculations of de-excitation of the primary fission fragments by the Hauser-Feshba...
AbstractPrompt fission γ rays are calculated through Monte Carlo Hauser-Feshbach simulations of the ...
International audienceInformation of isotopic fission-fragment yields is important for both fundamen...
AbstractThe prompt neutron and gamma emission from fission fragments are investigated through the Mo...
The de-excitation process of primary fission fragments can be simulated with the FIFRELIN Monte Carl...
Abstract. The decay of fission fragments is studied through Monte Carlo Hauser-Feshbach model calcul...
We implement fission fragment yields, calculated using Brownian shape-motion on a macroscopic-micros...
We demonstrate the neutron emission and fission product yield calculations using the Hauser–Feshbach...
AbstractPrompt fission neutrons and γ rays are calculated in the framework of the statistical Hauser...
The CGMF code implements the Hauser-Feshbach statistical nuclear reaction model to follow the de-exc...
The Hauser-Feshbach fission fragment decay model, HF3D, calculates the statistical decay of fission ...
The CGMF code provides a complete description of the properties of the prompt neutrons and γ rays, e...
We demonstrate calculations of the prompt neutron emission, the independent and cumulative fission p...
Fission product yields have been inferred using γ-ray spectroscopy for several decades. Typically, t...
Fission product yields have been inferred using γ-ray spectroscopy for several decades. Typically, t...
We performed the calculations of de-excitation of the primary fission fragments by the Hauser-Feshba...
AbstractPrompt fission γ rays are calculated through Monte Carlo Hauser-Feshbach simulations of the ...
International audienceInformation of isotopic fission-fragment yields is important for both fundamen...
AbstractThe prompt neutron and gamma emission from fission fragments are investigated through the Mo...
The de-excitation process of primary fission fragments can be simulated with the FIFRELIN Monte Carl...
Abstract. The decay of fission fragments is studied through Monte Carlo Hauser-Feshbach model calcul...