206 Pb( 6 He,2n) 210 Po, as well as for the transfer reactions on a 197 Au target with the formation of the 196 Au and 198 Au isotopes, with a beam dose about a factor of 10 higher and, in addition, at energies considerably lower than the Coulomb barrier of the reactions.
Results of the measurements of the excitation function in the deuteron-induced reaction 45 Sc(d, p) 46 Sc have been obtained at the energy of incident deuterons up to 11.7 MeV. In addition, data for the 45 Sc(d, t) 44 Sc reaction were obtained. The experiments were performed using the variable energy cyclotron U-120M (NPI, Řež) and the Electrostatic Generator EG-5 (FLNP, JINR). The cross sections of the induced activities were measured using the stacked-foil technique. The measured excitation functions were similar to those observed for the 45 Sc( 6 He, 5 He * ) 46 Sc reaction, studied at the accelerator complex for radioactive beams DRIBs (FLNR, JINR). The maximum probability of producing 46 Sc was also found close to the Coulomb barriers of these reactions. The compilation of available experimental data, obtained at deuteron and 6 He-energies near the Coulomb barrier, showed that the values of the cross sections at the maxima of the excitation functions obtained in (d, p) reactions and the reactions for one-neutron pickup from the 6 He projectiles have a different Z-dependence.
Experimental excitation functions are presented for fusion-evaporation and transfer reactions in the interaction of 6 Li with Bi and Pt targets. The data on the cross sections obtained for the produced evaporation residues are in agreement with calculations within the framework of the statistical model using the ALICE-MP code. Enhancement of the cross section for deuteron transfer reactions is observed at energies below the Coulomb barrier. The results are discussed from the point of view of how the nuclear cluster structure influences the probability of interaction at near-barrier energies.
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