Characterization of the breakup channel in the asymmetric systems Ca 40,48 + C 12 at 25 and 40 MeV/nucleon
Piantelli S.
Casini G.
Casini G.
Ottanelli P.
Baldesi L.
Barlini S.
Borderie B.
Bougault R.
Camaiani A.
Chbihi A.
Ciampi C.
Duenas J.A.
Dueñas J.A.
Fabris D.
Fabris D.
Fable Q.
Frankland J.D.
Frosin C.
Gramegna F.
Gruyer D.
Hong B.
Hong B.
Hong B.
Hong B.
Kordyasz A.
Kozik T.
Kweon M.J.
Lemarie J.
Leneindre N.
Lombardo I.
Lopez O.
Lopez O.
Marchi T.
Mazurek K.
Nam S.
Nam S.H.
Parlog M.
Park J.
Park J.
Park J.
Park J.
Pasquali G.
Poggi G.
Poggi G.
Rebillard-Soulie A.
Stefanini A.A.
Stefanini A.A.
Upadhyaya S.
Valdre S.
Verde G.
Vient E.
Vigilante M.
Physical Review C
Doi 10.1103/PhysRevC.107.044607
Volumen 107
2023-04-01
Citas: 3
© 2023 American Physical Society.An analysis of the asymmetric reactions Ca40,48+C12 at 25 and 40 MeV/nucleon is presented. Data were collected with six modules of the FAZIA array. The analysis is focused on the breakup channel of sources produced in dissipative collisions, partially corresponding to incomplete fusion processes. The study was performed both on detected fragments and on some resonances reconstructed by means of particle-fragment correlations, with a focus on the evolution of the breakup channel with the beam energy and the neutron content of the system, looking in particular at the relative velocity between the breakup fragments. Results show that also carbon fragments reconstructed by means of particle correlations can be in large part interpreted as the light partner of a scission.
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