Abstract
Clustering is one of the most complex phenomena known to the structure of atomic nuclei. A comprehensive description of this ubiquitous phenomenon goes beyond standard shell model and cluster model frameworks. We argue that clustering is a consequence of an openness of the nuclear many-body system, which leads to the collectivization of Shell Model (SM) states. To illustrate this point, we study the collective mixing of J = 0+ SM states due to the coupling to a common λ = 0 proton decay channel in 16Ne and 24S. We show that the energy of maximal collective coupling of SM eigenstates depends mainly on the Coulomb barrier; hence, the discussion also pertains to situations involving complex clusters.
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CITATION STYLE
Okołowicz, J., Płoszajczak, M., & Nazarewicz, W. (2012). On the origin of nuclear clustering. In Progress of Theoretical Physics Supplement (pp. 230–243). Yukawa Institute for Theoretical Physics. https://doi.org/10.1143/PTPS.196.230
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