Add to ORKGAbstract. We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV. It is based on three powerful basic components: (i) Atlas of Neutron Resonances in the resonance region; (ii) the nuclear reaction model code EMPIRE in the unresolved resonance and fast neutron regions, and (iii) the Bayesian code KALMAN for correlations and error propagation. Examples for cross section uncertainties and correlations on 90Zr and 193Ir illustrate this approach in the resonance and fast neutron regions.
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
The EMPIRE code system is being extended to cover the resolved and unresolved resonance region emplo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We completed estimates of neutron cross section covariances for 55 Mn and 90 Zr, from keV range to ...
Evaluation of neutron cross sections between 0eV and 20MeV is based on several aspects of nuclear ph...
We describe implementation of the KALMAN code in the EMPIRE system and present first covariance data...
We present the NNDC-BNL methodology for estimating neutron cross section covariances in thermal, res...
An extensive set of covariances for neutron cross sections has been developed to provide initial, lo...
We completed estimates of neutron cross section covariances for {sup 55}Mn and {sup 90}Zr, from keV ...
We describe analytical formalism for estimating neutron radiative capture and elastic scattering cro...
Recent evaluations of neutron cross section covariances in the resolved resonance region reveal the ...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
The EMPIRE code system is being extended to cover the resolved and unresolved resonance region emplo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We describe new method for energy-energy covariance calculation from the thermal energy up to 20 MeV...
We completed estimates of neutron cross section covariances for 55 Mn and 90 Zr, from keV range to ...
Evaluation of neutron cross sections between 0eV and 20MeV is based on several aspects of nuclear ph...
We describe implementation of the KALMAN code in the EMPIRE system and present first covariance data...
We present the NNDC-BNL methodology for estimating neutron cross section covariances in thermal, res...
An extensive set of covariances for neutron cross sections has been developed to provide initial, lo...
We completed estimates of neutron cross section covariances for {sup 55}Mn and {sup 90}Zr, from keV ...
We describe analytical formalism for estimating neutron radiative capture and elastic scattering cro...
Recent evaluations of neutron cross section covariances in the resolved resonance region reveal the ...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
The EMPIRE code system is being extended to cover the resolved and unresolved resonance region emplo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...