Author:
Carbone D,Agodi C,Bellone J I,Burrello S,Calabrese S,Cappuzzello F,Cavallaro M,Colonna M,De Gregorio G,Ferreira J L,Gargano A,Lenske H,Sgouros O,Spatafora A,Acosta L,Amador-Valenzuela P,Brischetto G A,Calvo D,Capirossi V,Chàvez Lomelì E R,Ciraldo I,Delaunay F,Djapo H,Eke C,Finocchiaro P,Firat S,Fisichella M,Guazzelli M A,Hacisalihoglu A,Iazzi F,Lay J A,Linares R,Lubian J,Medina N H,Moralles M,Oliveira J R B,Pakou A,Pandola L,Petrascu H,Pinna F,Russo G,Solakci S O,Soukeras V,Souliotis G,Torresi D,Tudisco S,Yildirim A,Zagatto V A B,
Abstract
Abstract
Different reactions channels induced by the 18O + 40Ca collisions at 275 MeV incident energy are simultaneously measured and analysed consistently within the same reaction and structure frameworks within the NUMEN project. The project aims to provide data-driven information for the determination of the nuclear matrix elements involved in the neutrinoless double beta decay. In particular, the elastic and inelastic scattering, one- and two-proton transfer, one-neutron transfer, and single charge exchange reactions are explored. The full quantum-mechanical calculations, performed by including microscopic nuclear structure inputs, describe well all the experimental data, giving support to a multi-channel strategy for the analysis of heavy-ion induced direct reactions.
Subject
Computer Science Applications,History,Education