Strong coupling effects on near-barrier 15C + 208Pb elastic scattering
Tavora V.G.
Ovejas J.D.
Martel I.
Keeley N.
Acosta L.
Borge M.J.G.
Tengblad O.
Arokiaraj A.A.
Babo M.
Cederkall J.
Ceylan N.
Di Pietro A.
Fernandez-Garcia J.P.
Figuera P.
Fraile L.M.
Fynbo H.O.U.
Galaviz D.
Garcia-Ramos C.
Honorio R.
Jensen J.H.
Jonson B.
Kemper K.W.
Knyazev A.
Kotak R.
Kurtukian T.
Madurga M.
Marquinez-Duran G.
Munch M.
Orduz A.K.
Park J.
Peralta L.
Peralta L.
Perea A.
Perez-Alvarez T.
Raabe R.
Renaud M.
Riisager K.
Rusek K.
Sánchez A.M.
Sanchez-Segovia J.
Teubig P.
Vinals S.
Wolinska-Cichocka M.
Wolski R.
Yang J.
Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
Doi 10.1016/j.physletb.2024.138770
Volumen 855
2024-08-01
Citas: 1
© 2024 The Author(s)The presence of a neutron halo in 15C has been demonstrated in several reaction experiments at intermediate energies. In the present study, the dynamical effects of this structure are observed for the first time at Coulomb barrier energies in the 15C + 208Pb quasi-elastic scattering at Elab=65 MeV, measured at the HIE-ISOLDE facility, CERN using the high-granularity detector array GLORIA. A combined continuum discretised coupled channels and coupled reaction channels calculation describes the data well and significant coupling effects due both to breakup and single-neutron stripping are identified.
Coupled channels, Direct nuclear reactions, Elastic scattering, Optical model, Radioactive beams
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