Abstract
One neutron transfer cross sections from the interaction of 9 Be with 89 Y have been measured at energies greater than the fusion barrier. The present measured 1n-transfer cross sections saturate at well above energies in comparison with the available experimental data at lower energies. Results of Coupled Reaction Channels Calculations (CRC) show very good agreement with the present measured cross sections.
Highlights
In recent years great effort has been made to understand the reaction mechanisms with weakly bound projectiles, which are important in the understandings of the astrophysical reactions and the production of nuclei near drip line [1,2,3]
In the breakup studies of weakly bound nuclei, the complete fusion (CF) of the projectile with the target, incomplete fusion (ICF) where one or more fragments are captured by the target, and the extracted complete fusion suppression factor are mostly discussed [3,4,5]
The present paper focuses on the presentation of new experimental results of one neutron transfer cross section for the 9Be+89Y system and compare with the theoretical model
Summary
In recent years great effort has been made to understand the reaction mechanisms with weakly bound projectiles, which are important in the understandings of the astrophysical reactions and the production of nuclei near drip line [1,2,3]. Good quality data can be obtained by using high-intensity beams of weakly bound stable nuclei, such as 6,7Li and 9Be which have significant breakup probabilities. In the breakup studies of weakly bound nuclei, the complete fusion (CF) of the projectile with the target, incomplete fusion (ICF) where one or more fragments are captured by the target, and the extracted complete fusion suppression factor are mostly discussed [3,4,5]. The one neutron transfer reaction, which was point to be important in the fusion of heavy nuclei [6, 7], was rarely considered. The present paper focuses on the presentation of new experimental results of one neutron transfer cross section for the 9Be+89Y system and compare with the theoretical model
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