Scattering cross section for various potential systems

We discuss the problems of scattering in this framework, and show that the applied method is very useful in the investigation of the effect of the resonance in the observed scattering cross sections. In this study, not only the scattering cross sections but also the decomposition of the scattering c...

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Bibliographic Details
Published in:Nuclear engineering and technology 2017, 49(5), , pp.1006-1009
Main Authors: Odsuren, Myagmarjav, Katō, Kiyoshi, Khuukhenkhuu, Gonchigdorj, Davaa, Suren
Format: Article
Language:English
Subjects:
Complex Scaling Method
Continuum Level Density
Resonance Problems
Scattering Problems
원자력공학
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Summary:We discuss the problems of scattering in this framework, and show that the applied method is very useful in the investigation of the effect of the resonance in the observed scattering cross sections. In this study, not only the scattering cross sections but also the decomposition of the scattering cross sections was computed for the α–α system. To obtain the decomposition of scattering cross sections into resonance and residual continuum terms, the complex scaled orthogonality condition model and the extended completeness relation are used. Applying the present method to the α–α and α–n systems, we obtained good reproduction of the observed phase shifts and cross sections. The decomposition into resonance and continuum terms makes clear that resonance contributions are dominant but continuum terms and their interference are not negligible. To understand the behavior of observed phase shifts and the shape of the cross sections, both resonance and continuum terms are calculated.
ISSN:1738-5733
2234-358X
DOI:10.1016/j.net.2017.04.007