Pre-compound neutron evaporation in low energy heavy ion fusion reactions

Inclusive and exclusive neutron evaporation spectra have been studied from the fusion reactions at 80 MeV 12C on 46Ti and 131 MeV 31P on 27Al, populating the compound nucleus 58Ni at the excitation energy of 79.5 MeV but in different angular momentum ranges. The evaporation residues 53Fe, 55Fe and 5...

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Bibliographic Details
Published in:Nuclear physics. A 2008, Vol.798 (1), p.1-15
Main Authors: Kumar, Ajay, Singh, Hardev, Kumar, Rajesh, Govil, I.M., Singh, R.P., Kumar, Rakesh, Yogi, B.K., Golda, K.S., Datta, S.K., Viesti, G.
Format: Article
Language:English
Subjects:
27Al( 31P,  X) 58Ni
46Ti( 12C,  X) 58Ni
Compared results to statistical model calculations
Deduced
E-gamma
E-neutron
formula omitted
I-gamma
I-neutron
inclusive and exclusive neutron evaporation differential cross sections
Measured
neutron-gamma-coincidences
Nuclear reactions
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Summary:Inclusive and exclusive neutron evaporation spectra have been studied from the fusion reactions at 80 MeV 12C on 46Ti and 131 MeV 31P on 27Al, populating the compound nucleus 58Ni at the excitation energy of 79.5 MeV but in different angular momentum ranges. The evaporation residues 53Fe, 55Fe and 56Co were identified by their characteristic γ-rays. The measured energy spectra of evaporated neutrons were compared with the predictions from statistical-model calculations. In case of the asymmetric system 12C + 46Ti, the neutron spectra are well reproduced, when compared with the results from statistical-model calculations with level density parameter a = A / 8 MeV −1 . On the contrary, the experimental spectra for the symmetric system 31P + 27Al are found to be harder than the theoretical predictions with a = A / 8 MeV −1 . In this case, a lower value of the level density parameter a = A / 10 MeV −1 seems to be required to reproduce the experimental results. The dependence of the energy spectra on the entrance channel is taken as an indication that, in case of the symmetric system, the neutrons are in part emitted from a temperature equilibrated di-nuclear complex at a higher temperature before the formation of the compound nucleus.
ISSN:0375-9474
DOI:10.1016/j.nuclphysa.2007.10.007