Nuclear alpha-clustering, superdeformation, and molecular resonances

Abstract

Nuclear alpha-clustering has been the subject of intense study since the advent of heavy-ion accelerators. Looking back for more than 40 years we are able today to see the connection between quasimolecular resonances in heavy-ion collisions and extremely deformed states in light nuclei. For example superdeformed bands have been recently discovered in light N=Z nuclei such as 36Ar, 40Ca, 48Cr, and 56Ni by γ-ray spectroscopy. The search for strongly deformed shapes in N=Z nuclei is also the domain of charged-particle spectroscopy, and our experimental group at IReS Strasbourg has studied a number of these nuclei with the charged particle multidetector array Icare at the Vivitron Tandem facility in a systematical manner. Recently the search for γ-decays in 24Mg has been undertaken in a range of excitation energies where previously nuclear molecular resonances were found in 12C+12C collisions. The breakup reaction 24Mg+12C has been investigated at Elab(24Mg) = 130 MeV, an energy which corresponds to the appropriate excitation energy in 24Mg for which the 12C+12C resonance could be related to the breakup resonance. Very exclusive data were collected with the Binary Reaction Spectrometer in coincidence with Euroball IV installed at the Vivitron.

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