Abstract
Within the NUMEN project, we present experimental issues and data reduction for the 116Cd(20Ne,20F)116In single charge exchange, 116Cd(20Ne,18O)118In two-proton transfer and 116Cd(20Ne,19F)117In one-proton transfer reactions at 15 AMeV incident energy.
Highlights
To interpret the experimental cross sections and properly isolate the Double Charge Exchange (DCE) contribution, the description of competing processes leading to the same final channel is mandatory
It is based on the use of the Superconducting Cyclotron high resolution beams and MAGNEX magnetic spectrometer [8, 9, 10], which is a relevant instrument in the research of heavy-ion physics [11, 12, 13, 14]
High performance are required, since DCE as well as multi-nucleon transfer reactions are challenging from the experimental side due to the very low cross section expected and the large experimental background of competing processes; high mass, angular and energy resolution are needed to isolate specific transitions in such heavy-ions collisions
Summary
- The nuclear matrix elements of 0v decay and the NUMEN project at INFN-LNS F. - The role of nuclear reactions in the problem of 0\nu\beta\beta decay and the NUMEN project at INFN-LNS F Cappuzzello, C Agodi, M Bondì et al. - Heavy–ion particle identification for the transfer reaction channels for the system 18O + 116Sn under the NUMEN Project N Deshmukh, F Cappuzzello, C Agodi et al
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