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Autori principali: Fujio, K., Kawano, T., Lovell, A. E., Neudecker, D.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.00360
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author Fujio, K.
Kawano, T.
Lovell, A. E.
Neudecker, D.
author_facet Fujio, K.
Kawano, T.
Lovell, A. E.
Neudecker, D.
contents We investigate the statistical properties of neutron-induced nuclear reactions on $^{238}$U using the GOE-$S$-matrix model, in which the Gaussian Orthogonal Ensemble (GOE) is embedded into the scattering ($S$) matrix. The GOE-$S$-matrix model does not require any experimental values of the average level spacing $D$ and average decay width $Γ$ with their statistical distributions, but the model is fully characterized by the channel transmission coefficients used in the Hauser-Feshbach theory. We demonstrate that the obtained compound nucleus decay width distribution resembles the $χ$-squared distribution with the degree of freedom greater than unity. This approach enables us to generate fluctuating cross sections while preserving requisite unitarity and accounting for interference between resonances. By comparing the calculated cross section distribution with that from $R$-matrix theory, we demonstrate a smooth transition from the resolved resonance region to the continuum region.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00360
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Statistical properties of neutron-induced reaction cross sections using random-matrix approach
Fujio, K.
Kawano, T.
Lovell, A. E.
Neudecker, D.
Nuclear Theory
We investigate the statistical properties of neutron-induced nuclear reactions on $^{238}$U using the GOE-$S$-matrix model, in which the Gaussian Orthogonal Ensemble (GOE) is embedded into the scattering ($S$) matrix. The GOE-$S$-matrix model does not require any experimental values of the average level spacing $D$ and average decay width $Γ$ with their statistical distributions, but the model is fully characterized by the channel transmission coefficients used in the Hauser-Feshbach theory. We demonstrate that the obtained compound nucleus decay width distribution resembles the $χ$-squared distribution with the degree of freedom greater than unity. This approach enables us to generate fluctuating cross sections while preserving requisite unitarity and accounting for interference between resonances. By comparing the calculated cross section distribution with that from $R$-matrix theory, we demonstrate a smooth transition from the resolved resonance region to the continuum region.
title Statistical properties of neutron-induced reaction cross sections using random-matrix approach
topic Nuclear Theory
url https://arxiv.org/abs/2510.00360