Examination of cluster production in excited light systems at Fermi energies from new experimental data and comparison with transport model calculations
Frosin C.
Piantelli S.
Casini G.
Casini G.
Ono A.
Ono A.
Ono A.
Camaiani A.
Baldesi L.
Barlini S.
Borderie B.
Bougault R.
Ciampi C.
Cicerchia M.
Chbihi A.
Dell'Aquila D.
Dueñas J.A. Fabris D.
Fabris D.
Fable Q.
Frankland J.D.
Genard T.
Gramegna F.
Gruyer D.
Henri M.
Hong B.
Hong B.
Hong B.
Hong B.
Kweon M.J.
Kim S.
Kim S.
Kim S.
Kim S.
Kordyasz A.
Kozik T.
Lombardo I.
Lopez O.
Lopez O.
Marchi T.
Mazurek K.
Nam S.H.
Nam S.
Lemarie J.
Leneindre N.
Ottanelli P.
Parlog M.
Park J.
Park J.
Park J.
Pasquali G.
Poggi G.
Poggi G.
Rebillard-Soulie A.
Sun B.H.
Sun B.H.
Sun B.
Stefanini A.A.
Stefanini A.A.
Terashima S.
Terashima S.
Upadhyaya S.
Valdre S.
Verde G.
Vient E.
Vigilante M.
Physical Review C
Doi 10.1103/PhysRevC.107.044614
Volumen 107
2023-04-01
Citas: 5
© 2023 American Physical Society.Four different reactions, S32+C12 and Ne20+C12 at 25 and 50 MeV/nucleon, have been measured with the FAZIA detector capable of full isotopic identification of most forward emitted reaction products. Fragment multiplicities, angular distributions and energy spectra have been measured and compared with Monte Carlo simulations, i.e., the antisymmetrized molecular dynamics (AMD) and the heavy-ion phase space exploration (HIPSE) models. These models are combined with two different afterburner codes (HF? and SIMON) to describe the decay of the excited primary fragments. In the case of AMD, the effect of including the clustering and interclustering processes to form bound particles and fragments is discussed. A clear confirmation of the role of the cluster aggregation in the reaction dynamics and particle production for these light systems, for which the importance of the clustering process increases with bombarding energy, is obtained.
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Centro de Estudios Avanzados en Física Matemática y Computación