Spin-Alignment and Quasi-Molecular Resonances in Heavy-Ion Collision

Abstract

Fragment-fragment-γ triple coincidence measurements of the 28Si~+~28Si reaction at E c.m.~=~55.8 MeV, carefully chosen to populate a well known quasi-molecular resonance in 56Ni, have been performed at the VIVITRON tandem facility by using the Eurogam Phase~II γ-ray spectrometer. In the 28Si~+~28Si reaction, the resonant behavior of the 28Si + 28Si exit-channel is clearly observed by the present fragment-fragment coincidence data. The more unexpected result is the spin disalignment of the 28Si + 28Si resonance. This has been demonstrated first by the measured angular distributions of the elastic 0+, inelastic 2+ and mutual excitation channels 2+-2+, which are dominated by a unique and pure partial wave with L = 38 , and has been confirmed by measuring their particle-γ angular correlations with Eurogam Phase II. The spin disalignment supports new molecular model predictions, in which the observed resonance would correspond to the ''Butterfly mode''. A discussion concerning the spin alignment and spin disalignment for different systems : 12C~+~12C, 24Mg~+~24Mg and 28Si~+~28Si will be given.