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Novel machine-learning method for spin classification of neutron resonances

G. P. A. Nobre, David Brown, Sophia J. Hollick, S. Scoville, Pablo Rogelio Hernández Rodríguez

2023Physical review. C16 citationsDOIOpen Access PDF

Abstract

The performance of nuclear reactors and other nuclear systems depends on a precise understanding of the neutron interaction cross sections for materials used in these systems. These cross sections exhibit resonant structure whose shape is determined in part by the angular-momentum quantum numbers of the resonances. The correct assignment of the quantum numbers of neutron resonances is, therefore, paramount. In this project, we apply machine learning to automate the quantum number assignments using only the resonances' energies and widths and not relying on detailed transmission or capture measurements. The classifier used for quantum number assignment is trained using stochastically generated resonance sequences whose distributions mimic those of real data. We explore the use of several physics-motivated features for training our classifier. These features amount to out-of-distribution tests of a given resonance's widths and resonance-pair spacings. We pay special attention to situations where either capture widths cannot be trusted for classification purposes or where there is insufficient information to classify resonances by the total spin $J$. We demonstrate the efficacy of our classification approach using simulated and actual $^{52}\mathrm{Cr}$ resonance data.

Topics & Concepts

PhysicsNeutronResonance (particle physics)QuantumQuantum numberClassifier (UML)Spin (aerodynamics)Angular momentumNuclear physicsAtomic physicsQuantum mechanicsArtificial intelligenceComputer scienceThermodynamicsNuclear Physics and ApplicationsNuclear reactor physics and engineeringRadiation Detection and Scintillator Technologies
Novel machine-learning method for spin classification of neutron resonances | Litcius