The population of deformed bands in 48Cr by emission of 8Be from the 32S + 24Mg reaction

Abstract

Using particle-γ coincidences we have studied the population of final states after the emission of 2 α-particles and of 8Be in nuclei formed in 32S+24Mg reactions at an energy of E L(32S) = 130 MeV. The data were obtained in a setup consisting of the GASP γ-ray detection array and the multidetector array ISIS. Particle identification is obtained from the and E signals of the ISIS silicon detector telescopes, the 8Be being identified by the instantaneous pile up of the and E pulses. γ-ray decays of the 48Cr nucleus are identified with coincidences set on 2 α-particles and on 8Be. Some transitions of the side-band with Kπ=4- show stronger population for 8Be emission relative to that of 2 α-particles (by a factor 1.5-1.8). This observation is interpreted as due to an enhanced emission of 8Be into a more deformed nucleus. Calculations based on the extended Hauser-Feshbach compound decay formalism confirm this observation quantitatively.

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