par Fazio, Giovanni;Giardina, Giorgio;Mandaglio, Giuseppe;Ruggeri, Roberto;Muminov, Akhtam;Nasirov, Avazbek;Oganessian, Yu.Ts.;Popeko, Andrei;Sagaidak, Roman;Yeremin, Alexander;Hofmann, Sigurd;Hanappe, Francis 
;Stodel, Ch
Référence Physical review. C. Nuclear physics, 72, 6, 064614
Publication Publié, 2005-12
;Stodel, ChRéférence Physical review. C. Nuclear physics, 72, 6, 064614
Publication Publié, 2005-12
Article révisé par les pairs
| Résumé : | The dynamical effects of the entrance channel on the formation of the evaporation residues are studied by analyzing the Ar40+Hf176, Kr86+Xe130,136, Sn124+Zr92, and Ca48+Yb174 reactions leading to the Th216* and Th222* compound nuclei. We find that the difference between the evaporation residue cross sections for the reactions leading to the same compound nucleus is caused by the different angular momentum distributions of the partial fusion cross sections σ(Ec.m.). The strong dependence of the fusion angular momentum distribution on the mass (charge) asymmetry and shell structure of reactants is demonstrated. The effect of the A/Z ratio for the Kr86+Xe130,136 reactions is discussed. The dynamical conditions of capture affect the competition between complete fusion and quasifission and, consequently, the shape of the angular momentum distribution of the compound nucleus. By this way the peculiarities of the entrance channel also affect the fission-evaporation competition of the excited intermediate nuclei along the deexcitation cascade of the compound nucleus and, consequently, the evaporation residue formation. © 2005 The American Physical Society. |
