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作 者:Ian M.Wilkinson Ritwik R.Bhattacharjee Jenifer C.Shafer Andrew G.Osborne
机构地区:[1]Nuclear Science&Engineering,The Colorado School of Mines,101214th St.,Golden,CO,80401,USA [2]Department of Chemistry,The Colorado School of Mines,101214th St.,Golden,CO,80401,USA [3]Department of Mechanical Engineering,The Colorado School of Mines,1610 Illinois St.,Golden,CO,80401,USA
出 处:《Energy and AI》2022年第1期101-119,共19页能源与人工智能(英文)
摘 要:Large neutron absorption resonances in the nuclides present in irradiation samples reduce the irradiating neutron flux at energies close to a resonance.In neutron activation analysis of optically thick samples with resonant isotopes,this self-shielding effect can be significant,and must be accounted for to ensure accurate measurements.Here we show that an ensemble artificial neural network can be used to accurately predict the epithermal selfshielding factors in wires composed of up to 57 nuclides.Importantly,the neural network can account for resonance interference that affects the self-shielding in samples containing nuclides with large overlapping resonances.We use Monte Carlo simulations of sample wires irradiated in a thermal neutron spectrum to create the data for training the neural network and validate its predictions.A Gaussian negative log likelihood loss function is combined with the ensemble to estimate the confidence in the predicted self-shielding factors when ground-truth data are unavailable.
关 键 词:Neutron activation analysis Epithermal self-shielding Neural Networks
分 类 号:TP183[自动化与计算机技术—控制理论与控制工程]
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