Proton elastic scattering on light nuclei. II. Nuclear structure effects

“…It is clear that the eikonal approximation gives a good agreement with the data than the partial-wave expansion at energies ≥ 50 MeV/nucleon over all the angular range. The calculated reaction cross sections σ R for p+ 9,10,11,12 Be at different energies using the optical model analysis with the partial-wave expansion are presented in Fig. 2(a).…”

“…The differential cross sections of p+ 9,10,11,12 Be elastic scattering are calculated using the partial-wave expansion and presented in Fig. 1.…”

“…The differential cross-section data of p+ 9,10,11,12 Be elastic scattering and corresponding references are listed in Table 1. In addition, the experimental values of the re- [22] action cross sections for p+ 9,10,11 Be reactions can be found in Refs. [23,24].…”

“…[5] as (5) where v is the velocity of the nucleon-nucleus relative motion, ρ(q) is the form factor corresponding to the point-like nucleon density distribution of the nucleus, and f NN (q) is the NN scattering amplitude.σ NN is the average over isospin total NN cross section. The Green's function Monte Carlo (GFMC) density [6] is used for 9,10 Be and the Gaussian-Oscillator (GO) distribution is used for 11,12 Be (see [3]). …”

“…The proton elastic scattering off the 9,10,11,12 Be isotopes at a wide energy range from 3 to 200 MeV/nucleon is analyzed using the optical model with the partial-wave expansion method. The microscopic optical potential (OP) is taken within the single-folding model.…”

Analysis of proton scattering of stable and exotic light nuclei using an energy-dependent microscopic optical potential

“…It is clear that the eikonal approximation gives a good agreement with the data than the partial-wave expansion at energies ≥ 50 MeV/nucleon over all the angular range. The calculated reaction cross sections σ R for p+ 9,10,11,12 Be at different energies using the optical model analysis with the partial-wave expansion are presented in Fig. 2(a).…”

“…The differential cross sections of p+ 9,10,11,12 Be elastic scattering are calculated using the partial-wave expansion and presented in Fig. 1.…”

“…The differential cross-section data of p+ 9,10,11,12 Be elastic scattering and corresponding references are listed in Table 1. In addition, the experimental values of the re- [22] action cross sections for p+ 9,10,11 Be reactions can be found in Refs. [23,24].…”

“…[5] as (5) where v is the velocity of the nucleon-nucleus relative motion, ρ(q) is the form factor corresponding to the point-like nucleon density distribution of the nucleus, and f NN (q) is the NN scattering amplitude.σ NN is the average over isospin total NN cross section. The Green's function Monte Carlo (GFMC) density [6] is used for 9,10 Be and the Gaussian-Oscillator (GO) distribution is used for 11,12 Be (see [3]). …”

“…The proton elastic scattering off the 9,10,11,12 Be isotopes at a wide energy range from 3 to 200 MeV/nucleon is analyzed using the optical model with the partial-wave expansion method. The microscopic optical potential (OP) is taken within the single-folding model.…”

Analysis of proton scattering of stable and exotic light nuclei using an energy-dependent microscopic optical potential

Nuclear Data Sheets for A = 53

Measurement and folding-potential analysis of the elastic ?-scattering on light nuclei