A. Demian scite author profile

A dynamical model using three collective degrees of freedom: (r) -the distance between the center-of-mass of the nuclei, (0) -the deflection angle and (x) -the mass-asymmetry, was applied to analyse deep inelastic collisions ia a light cpmposite system ~9F(72 MeV) +24Mg. Two kinds of nuclear potentials, a proximity and a Woods-Saxon one, have been chosen to describe the nuclear interaction. To obtain a good prediction of the 1-critical values for fusion and a good description of the experimental angular distributions it was necessary to use much larger values of the coefficients for the friction tensor, as compared to the case of heavy composite systems. By comparing with experimental angular distributions it resulted that deep inelastic collisions in such light composite system correspond to a dissipated energy higher than 5 MeV. In the Wilczynski plots for such light composite system at about 1.3 MeV/u above the Coulomb barrier, a mixing of quasielaslic and deep inelastic components was found in agreement with the experimental energy spectra. Based on the Qg~ systemafics, the calculated cross-sections d z aid 0 dA for A = 16 gave a good estimation of the experimental angular distribution for the Z=8 element.

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A. Demian

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A large volume 3D imaging gas scintillation counter with CsI-based wire chamber readout

Full scale relativistic ab initio time dependent calculations for the L-K vacancy transfer in 208 MeV Ni23+ on a Ge solid target

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Dynamical analysis of deep inelastic interactions in a light composite system (19F +14Mg) at about 1.3 MeV/u above the Coulomb barrier

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