@article{3071945,
    title = "Ne 20 + Ge 76 elastic and inelastic scattering at 306 MeV",
    author = "Spatafora, A. and Cappuzzello, F. and Carbone, D. and Cavallaro, M. and Lay, J.A. and Acosta, L. and Agodi, C. and Bonanno, D. and Bongiovanni, D. and Boztosun, I. and Brischetto, G.A. and Burrello, S. and Calabrese, S. and Calvo, D. and Chávez Lomelí, E.R. and Ciraldo, I. and Colonna, M. and Delaunay, F. and Deshmukh, N. and Ferreira, J.L. and Finocchiaro, P. and Fisichella, M. and Foti, A. and Gallo, G. and Hacisalihoglu, A. and Iazzi, F. and Lanzalone, G. and Lenske, H. and Linares, R. and Lo Presti, D. and Lubian, J. and Moralles, M. and Muoio, A. and Oliveira, J.R.B. and Pakou, A. and Pandola, L. and Petrascu, H. and Pinna, F. and Reito, S. and Russo, G. and Santagati, G. and Sgouros, O. and Solakci, S.O. and Soukeras, V. and Souliotis, G. and Torresi, D. and Tudisco, S. and Yildirim, A. and Zagatto, V.A.B. and for the NUMEN Collaboration",
    journal = "Physical Review C",
    year = "2019",
    volume = "100",
    number = "3",
    publisher = "American Physical Society",
    issn = "2469-9985, 2469-9993",
    doi = "10.1103/PhysRevC.100.034620",
    abstract = "Background: Double charge exchange (DCE) nuclear reactions have recently attracted much interest as tools to provide experimentally driven information about nuclear matrix elements of interest in the context of neutrinoless double-β decay. In this framework, a good description of the reaction mechanism and a complete knowledge of the initial and final-state interactions are mandatory. Presently, not enough is known about the details of the optical potentials and nuclear response to isospin operators for many of the projectile-target systems proposed for future DCE studies. Among these, the Ne20+Ge76 DCE reaction is particularly relevant due to its connection with Ge76 double-β decay. Purpose: We intend to characterize the initial-state interaction for the Ne20+Ge76 reactions at 306 MeV bombarding energy and determine the optical potential and the role of the couplings between elastic channel and inelastic transitions to the first low-lying excited states. Methods: We determine the experimental elastic and inelastic scattering cross-section angular distributions, compare the theoretical predictions by adopting different models of optical potentials with the experimental data, and evaluate the coupling effect through the comparison of the distorted-wave Born approximation calculations with the coupled channels ones. Results: Optical models fail to describe the elastic angular distribution above the grazing angle (≈9.4). A correction in the geometry to effectively account for deformation of the involved nuclear systems improves the agreement up to about 14. Coupled channels effects are crucial to obtain good agreement at large angles in the elastic scattering cross section. Conclusions: The analysis of elastic and inelastic scattering data turned out to be a powerful tool to explore the initial and final-state interactions in heavy-ion nuclear reactions at high transferred momenta. © 2019 American Physical Society."
}