International audienceImprovements in determination of the thermal scattering law of moderator materials (measuring, calculating and validating) are important for accurate prediction of neutron thermalization in nuclear systems. In this work a methodology for producing thermal scattering libraries from the experimental data for polyethylene C2H4 n is discussed. Double differential scattering cross section (DDSCS) experiments were performed at the Spallation Neutron Source of Oak Ridge National Laboratory (SNS ORNL). New scattering kernel evaluations, based on phonon spectrum for C2H4 n, are created using the NJOY2016 code. Two different methods were used direct and indirect geometry neutron scattering at ARCS and SEQUOIA, and VISION instrum...
Convenient access to accurate nuclear data, particularly data describing low-energy neutrons, is cru...
International audienceThe interpretation of the reactivity temperature coefficient measured in the M...
Validation of the accuracy of S(α, β) thermal scattering law (TSL) evaluations for moderator materia...
International audienceImprovements in determination of the thermal scattering law of moderator mater...
International audienceWith the advancements in technology (both experimental and computational) the ...
With the rise of interest in thermal neutron scattering data for advanced reactor, criticality safet...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
Precise estimation of neutron thermalization in moderators relies on high-fidelity thermal scatterin...
In order to improve the design and safety of thermal nuclear reactors and for verification of critic...
In order to test the performance of new neutron thermal scattering law (TSL) evaluations it is desir...
In this work, a thermal neutron scattering data evaluation framework is presented that combines meas...
Thermal neutron scattering cross-section data for light water available in the major nuclear data li...
To improve the evaluations in thermal sublibraries, we developed a set of thermal neutron scattering...
Cold neutrons are widely used in different fields of research such as the study of the structure and...
Convenient access to accurate nuclear data, particularly data describing low-energy neutrons, is cru...
International audienceThe interpretation of the reactivity temperature coefficient measured in the M...
Validation of the accuracy of S(α, β) thermal scattering law (TSL) evaluations for moderator materia...
International audienceImprovements in determination of the thermal scattering law of moderator mater...
International audienceWith the advancements in technology (both experimental and computational) the ...
With the rise of interest in thermal neutron scattering data for advanced reactor, criticality safet...
International audienceThis paper details and implements a framework for evaluating thermal neutron s...
Precise estimation of neutron thermalization in moderators relies on high-fidelity thermal scatterin...
In order to improve the design and safety of thermal nuclear reactors and for verification of critic...
In order to test the performance of new neutron thermal scattering law (TSL) evaluations it is desir...
In this work, a thermal neutron scattering data evaluation framework is presented that combines meas...
Thermal neutron scattering cross-section data for light water available in the major nuclear data li...
To improve the evaluations in thermal sublibraries, we developed a set of thermal neutron scattering...
Cold neutrons are widely used in different fields of research such as the study of the structure and...
Convenient access to accurate nuclear data, particularly data describing low-energy neutrons, is cru...
International audienceThe interpretation of the reactivity temperature coefficient measured in the M...
Validation of the accuracy of S(α, β) thermal scattering law (TSL) evaluations for moderator materia...