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Ab initio Folding Potentials for Nucleon-Nucleus Scattering based on NCSM One-Body Densities

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arxiv 1810.06442 v1 pith:MWX7ZIDB submitted 2018-10-15 nucl-th

Ab initio Folding Potentials for Nucleon-Nucleus Scattering based on NCSM One-Body Densities

classification nucl-th
keywords scatteringexpansionnucleon-nucleuscalculationsdensityinteractionmultipleone-body
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Calculating microscopic optical potentials for elastic nucleon-nucleus scattering has already led to large body of work in the past. For folding first-order calculations the nucleon-nucleon (NN) interaction and the one-body density of the nucleus were taken as input to rigorous calculations in a spectator expansion of the multiple scattering series. Based on the Watson expansion of the multiple scattering series we employ a nonlocal translationally invariant nuclear density derived from a chiral next-to-next-to-leading order (NNLO) and the very same interaction for consistent full-folding calculation of the effective (optical) potential for nucleon-nucleus scattering for light nuclei. We calculate scattering observables, such as total, reaction, and differential cross sections as well as the analyzing power and the spin-rotation parameter, for elastic scattering of protons and neutrons from $^4$He, $^{6}$He, $^{12}$C, and $^{16}$O, in the energy regime between 100 and 200~MeV projectile kinetic energy, and compare to available data. Our calculations show that the effective nucleon-nucleus potential obtained from the first-order term in the spectator expansion of the multiple scattering expansion describes experiments very well to about 60 degrees in the center-of-mass frame, which coincides roughly with the validity of the NNLO chiral interaction used to calculate both the NN amplitudes and the one-body nuclear density.

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