JNE, Vol. 5, Pages 114-127: Neutron Yield Predictions with Artificial Neural Networks: A Predictive Modeling Approach

JNE, Vol. 5, Pages 114-127: Neutron Yield Predictions with Artificial Neural Networks: A Predictive Modeling Approach

Journal of Nuclear Engineering doi: 10.3390/jne5020009

Authors: Benedikt Schmitz Stefan Scheuren

The development of compact neutron sources for applications is extensive and features many approaches. For ion-based approaches, several projects with different parameters exist. This article focuses on ion-based neutron production below the spallation barrier for proton and deuteron beams with arbitrary energy distributions with kinetic energies from 3 MeV to 97 MeV. This model makes it possible to compare different ion-based neutron source concepts against each other quickly. This contribution derives a predictive model using Monte Carlo simulations (an order of 50,000 simulations) and deep neural networks. It is the first time a model of this kind has been developed. With this model, lengthy Monte Carlo simulations, which individually take a long time to complete, can be circumvented. A prediction of neutron spectra then takes some milliseconds, which enables fast optimization and comparison. The models’ shortcomings for low-energy neutrons (<0.1 MeV) and the cut-off prediction uncertainty (±3 MeV) are addressed, and mitigation strategies are proposed.