Author:
Sgouros O,Cavallaro M,Cappuzzello F,Carbone D,Agodi C,Altana C,Brischetto G A,Calabrese S,Calvo D,Capirossi V,Chávez Lomelí E R,Ciraldo I,Cutuli M,De Gregorio G,Delaunay F,Djapo H,Eke C,Ferreira J L,Finocchiaro P,Fisichella M,Foti A,Gargano A,Guazzelli M A,Hacisalihoglu A,Iazzi F,La Fauci L,Linares R,Lubian J,Medina N H,Moralles M,Oliveira J R B,Pakou A,Pandola L,Pinna F,Russo G,Soukeras V,Souliotis G,Spatafora A,Torresi D,Yildirim A,Zagatto V A B,
Abstract
Abstract
The 18O+48Ti reaction was studied at the energy of 275 MeV for the first time under the NUMEN and NURE experimental campaigns with the aim of investigating the complete reaction network potentially involved in the 48Ti→48Ca double charge exchange transition. Understanding the degree of competition between successive nucleon transfer and double charge exchange reactions is crucial for the description of the meson exchange mechanism. Into this context, angular distribution measurements for one- and two-nucleon transfer reactions for the system 18O+48Ti were performed at the MAGNEX facility of INFN-LNS in Catania. An overview of the status of the analysis for the two-proton transfer reaction will be given.
Subject
Computer Science Applications,History,Education