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A Constrained Analysis of the 40Ca(18O,18F)40K Direct Charge Exchange Reaction Mechanism at 275 MeV

M. Cavallaro, Jessica Bellone, Salvatore Calabrese, C. Agodi, S. Burrello, F. Cappuzzello, D. Carbone, M. Colonna, N. Deshmukh, H. Lenske, A. Spatafora, L. Acosta, P. Amador-Valenzuela, T. Borello‐Lewin, G. A. Brischetto, D. Calvo, V. Capirossi, E. Chávez, I. Ciraldo, M. Cutuli, F. Delaunay, H. Djapo, Canel Eke, P. Finocchiaro, S. Firat, M. Fisichella, A. Foti, M. Guazzelli, A. Hacisalihoglu, F. Iazzi, L. La Fauci, R. Linares, J. Lubián, N. H. Medina, M. Moralles, J. R. B. Oliveira, A. Pakou, L. Pandola, H. Petrascu, F. Pinna, Giovanna Russo, O. Sgouros, S. O. Solakcı, V. Soukeras, G. A. Souliotis, D. Torresi, S. Tudisco, A. Yildirin, V. A. B. Zagatto

2021Frontiers in Astronomy and Space Sciences48 citationsDOIOpen Access PDF

Abstract

The 40 Ca( 18 O, 18 F) 40 K single charge exchange (SCE) reaction is explored at an incident energy of 275 MeV and analyzed consistently by collecting the elastic scattering and inelastic scattering data under the same experimental conditions. Full quantum-mechanical SCE calculations of the direct mechanism are performed by including microscopic nuclear structure inputs and adopting either a bare optical potential or a coupled channel equivalent polarization potential (CCEP) constrained by the elastic and inelastic data. The direct SCE mechanism describes the magnitude and shape of the angular distributions rather well, thus suggesting the suppression of sequential multi-nucleon transfer processes.

Topics & Concepts

PhysicsInelastic scatteringCharge exchangeAtomic physicsPolarization (electrochemistry)Elastic scatteringCharge (physics)ScatteringNucleonReaction mechanismQuantumNuclear reactionNuclear physicsIonQuantum mechanicsPhysical chemistryChemistryBiochemistryCatalysisNuclear physics research studiesAdvanced NMR Techniques and ApplicationsRadioactive element chemistry and processing
A Constrained Analysis of the 40Ca(18O,18F)40K Direct Charge Exchange Reaction Mechanism at 275 MeV | Litcius