One-proton transfer reaction for the O18+Ti48 system at 275 MeV
0103 physical sciences
01 natural sciences
7. Clean energy
DOI:
10.1103/physrevc.104.034617
Publication Date:
2021-09-15T17:23:01Z
AUTHORS (42)
ABSTRACT
Single-nucleon transfer reactions are processes that selectively probe single-particle components of the populated many-body nuclear states. In this context, recent efforts have been made to build a unified description rich spectroscopy accessible in heavy-ion collisions. An example multichannel approach is study competition between successive nucleon and charge exchange reactions, latter being particular interest context single double beta decay studies. To extent, one-proton pickup reaction $^{48}\mathrm{Ti}(^{18}\mathrm{O},^{19}\mathrm{F})^{47}\mathrm{Sc}$ at 275 MeV was measured for first time, under NUMEN experimental campaign. Differential cross-section angular distribution measurements $^{19}\mathrm{F}$ ejectiles were performed INFN-LNS Catania by using MAGNEX large acceptance magnetic spectrometer. The data analyzed within distorted-wave coupled-channels Born approximation frameworks. initial final-state interactions described adopting S\~ao Paulo potential, whereas spectroscopic amplitudes projectile target overlaps derived from shell-model calculations. theoretical cross sections found be very good agreement with data, suggesting validity optical potentials involved states adopted model space.
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