Speaker
Enrico De Filippo
(CT)
Description
E. De Filippo1, P. Russotto2, E.V. Pagano2,3, L. Acosta2,4, L. Auditore1,5, T. Cap6, G. Cardella1, B. Gnoffo1,3, G. Lanzalone2,7, C. Maiolino2, N.S. Martorana2,3, A. Pagano1, M. Papa1, E. Piasecki8, S. Pirrone1, G. Politi1,3, L. Quattrocchi1,5, F. Rizzo2,3,
K. Siwek-Wilczynska9, A. Trifirò1,5 and M. Trimarchi1,5
1) INFN, Sezione di Catania, Catania, Italy
2) INFN, Laboratori Nazionali del Sud, Catania, Italy
3) Dipartimento di Fisica e Astronomia, Università di Catania, Italy
4) Instituto de Fisica, Universidad National Autonoma de Mexico, Mexico
5) Dipartimento di Scienze MITF, Univ. di Messina, Italy
6) National Centre for Nuclear Research, Otwork-Swierk, Poland
7) Università Kore, Enna, Italy
8) Heavy Ion Laboratory, University of Warsaw, Poland
9) Faculty of Physics, University of Warsaw, Poland
The reactions 124Xe + 64Zn and 64Ni at 35 A.MeV beam incident energy (InKiIsSy, Inverse Kinemat-ic Isobaric System, experiment) were studied at INFN-LNS with the 4π CHIMERA detector and compared to results of previous studied reactions 124,112Sn + 64,58Ni [1]. We study the IMF produc-tion probability and emission mechanism in the projectile-like fission by using the kinematical recon-struction of the PLF* source and the break-up alignment angle as main observable. We show that prompt-dynamical emission is enhanced by increasing the projectile and target Isospin content in the entrance channel. Experimental results are compared with the Constrained Molecular Dynamic code CoMD. A new experiment [2] has been approved in order to expand our investigation at lower en-ergies of 20 A.MeV by using CHIMERA coupled with 10 telescopes of the new FARCOS correla-tor.
REFERENCES
[1] P. Russotto et al., Phys. Rev. C92, 014610 (2015).
[2] E.V. Pagano, E. De Filippo, P. Russotto and NewChim collaboration, CHIFAR LNS-PAC proposal.
Selected session
Nuclear Structure and dynamics
Primary author
Enrico De Filippo
(CT)
Co-authors
Emanuele Vincenzo Pagano
(LNS)
Paolo Russotto
(LNS)
