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Communication Dans Un Congrès Année : 2024

Producing uncertainties and covariance matrix from intermediate data using a Monte-Carlo method

Résumé

The necessary improvement of evaluated nuclear data for nuclear applications development is possible through new and high quality experimental measurements. In particular, improving (n, n’) cross section evaluations for fast neutrons is a goal of interest for new reactor fuel cycles, such as 232Th/233U or 238U/239Pu. Our group at CNRS-IPHC developed an experimental program to measure (n, n’γ) cross section using prompt γ-ray spectroscopy and neutron energy determination by time-of-flight with a focus on reaching the highest achievable level of accuracy. The collected partial cross sections can then be used to infer the total (n, n’) one and contribute to evaluation improvement. The extraction of the exclusive (n, n’γ) cross sections from the recorded data involves using many parameters and processing that may introduce uncertainties and correlations. In that case, the usual method for combining and computing uncertainties based on the perturbation theory can be long and complex. It also makes the calculation of covariance hard and the inclusion of some unusual forms of uncertainty even more difficult. To overcome this issue, we developed a process relying on random sampling methods that processes intermediate analysis data to compute cross sections, uncertainties and covariance. As a benchmark, we used this Monte Carlo method on 232Th, 233U and 238U data and reproduced the central values and uncertainties calculated using the analytical method, while also producing covariance matrices for (n, n’γ) cross sections. For particular cases, the random sampling method is able to produce uncertainties that better reflect the input data, compared to the analytical method.
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hal-04556486 , version 1 (24-06-2024)

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Greg Henning, François Claeys, Nicolas Dari Bako, Philippe Dessagne, Maëlle Kerveno. Producing uncertainties and covariance matrix from intermediate data using a Monte-Carlo method. 6th International Workshop On Nuclear Data Evaluation for Reactor applications, Jun 2024, Paris, France. pp.05002, ⟨10.1051/epjconf/202429405002⟩. ⟨hal-04556486⟩
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