Abstract
In this paper, an attempt was made to measure the excitation function for the disappearance residues recognized in the interaction of 12 C+ 128 Te and 14 N + 128 Te system with the observation to investigating the complete and incomplete fusion reaction dynamics in heavy ion induced reaction. The incentive of this study was break up of 12 C and 14 N in reaction below 7MeV/A and associate the excitation function for 12 C and 14 N with the same target 128 Te prominent different compound system. PACE-4 were used for analysis of the system, and the measured excitation functions for precise decay channel in two case i.e. ( 12 C+ 128 Te and 14 N + 128 Te) have been associated and established in Bohr assumption in case of complete fusion channels. The properties of coulomb barrier and other entrance channel parameters were established to be relatively significant in decisive the decay mode of composite system. Additionally the incomplete fusion dynamics were also perceived to be of significant importance in present energy section. Keywords : Complete Fusion, Incomplete fusion, non-α-emitting, α-emitting DOI : 10.7176/APTA/81-01 Publication date: December 31 st 2019
Highlights
Investigating of different reaction mechanism involved in the heavy ion (HI) induced reaction, complete (CF), incomplete fusion (ICF) and direct reaction etc sunil et al [1]
At smaller values, complete fusion(CF) reaction in which Projectile is completely fused with the target nucleus and highly excited compound nucleus decays by evaporating low-energy nucleons and α particles, incomplete fusion(ICF) in which only a part of the projectile fuses with the target nucleus, leading to the formation of an excited incompletely fused composite system with a mass and/or charge lower than that of the CN, while the remaining part escape sin forward cone with approximately the beam velocity[2 ]
The results indicated that incomplete fusion contribution found to be sensitive to the projectile type, energy and entrance channel mass-asymmetry
Summary
Investigating of different reaction mechanism involved in the heavy ion (HI) induced reaction, complete (CF), incomplete fusion (ICF) and direct reaction etc sunil et al [1]. At smaller values, complete fusion(CF) reaction in which Projectile is completely fused with the target nucleus and highly excited compound nucleus decays by evaporating low-energy nucleons and α particles, incomplete fusion(ICF) in which only a part of the projectile fuses with the target nucleus, leading to the formation of an excited incompletely fused composite system with a mass and/or charge lower than that of the CN, while the remaining part escape sin forward cone with approximately the beam velocity[2 ].
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