Abstract
There is a deep astrophysical interest in the structure of states close to the -decay threshold. The nuclear structure of these states is important for understanding of the development of clustering in the region. Emergence of clustered states, and generally states that favor coupling to reaction channels near the corresponding decay thresholds, is currently of special interest in theoretical physics. We specify the parameters of broad low spin states in near the -decay threshold and present a theoretical study of these states. The study is limited to and 1 relative partial wave resonances in the interaction close to the -decay threshold in . Excitation function for ) elastic scattering was measured by the TTIK method. These new data together with the old, high-energy resolution data, were analyzed using the matrix approach. nuclear structure was calculated using configuration interaction methods with the recently developed effective interaction Hamiltonian. As a result, in this work we identify a series of clustering resonances in and assess the distribution of the clustering strength, which is of importance to questions of astrophysics and for theoretical understanding of many-body physics and emergence of clustering in loosely bound or unstable nuclei. Progress has been made in theoretical understanding of the origins of clustering and questions for future theoretical and experimental research are identified.
- Received 26 April 2021
- Revised 17 September 2021
- Accepted 12 November 2021
DOI:https://doi.org/10.1103/PhysRevC.105.014614
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