Abstract
Having accurate measurements of fission observables is important for a variety of applications, ranging from energy to non-proliferation, defense to astrophysics. Because not all of these data can be measured, it is necessary to be able to accurately calculate these observables as well. In this work, we exploit Monte Carlo and machine learning techniques to reproduce mass and kinetic energy yields, for phenomenological models and in a model-free way. We begin with the spontaneous fission of 252 Cf, where there is abundant experimental data, to validate our approach, with the ultimate goal of creating a global yield model in order to predict quantities where data are not currently available.
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CITATION STYLE
Lovell, A., Mohan, A., Talou, P., & Chertkov, M. (2019). Constraining Fission Yields Using Machine Learning. EPJ Web of Conferences, 211, 04006. https://doi.org/10.1051/epjconf/201921104006
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