Author:
Rodríguez-Sánchez J.L.,Feijoo M.,Benlliure J.,Chatillon A.,Taïeb J.,Audouin L.,Alvarez-Pol H.,Ayyad Y.,Bélier G.,Boutoux G.,Caamaño M.,Casarejos E.,Cortina-Gil D.,Farget F.,Fernández-Domínguez B.,Gorbinet T.,Grente L.,Heinz A.,Johansson H.T.,Jurado B.,Kelić-Heil A.,Körper D.,Kurz N.,Laurent B.,Lindberg S.,Löher B.,Martin J.-F.,Nociforo C.,Paradela C.,Pietri S.,Ramos D.,Rodríguez-Tajes C.,Simon H.,Törnqvist H.T.,Voss B.,Weick H.,Yan Y.
Abstract
In the last decades, measurements of spallation, fragmentation and Coulex induced fission reactions in inverse kinematics have provided valuable data to accurately investigate the fission dynamics and nuclear structure at large deformations of a large variety of stable and non-stable heavy nuclei. The collected data were used to constrain dynamic and nuclear structure parameters of different de-excitation models, such as ABLA and GEF, but the data can also be used to constrain the parameterizations describing the pre-fragment properties after the nuclear collision, such as the angular momentum gained by the pre-fragment. In this work, the fissioning system yields are compared to calculations assuming different parameterizations for modeling the angular momentum gained by the compound nuclei. Our findings indicate that the parameterizations utilized by abrasion models clearly underestimate the angular momentum, resulting in the underestimation of the production of lighter fissioning systems.