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- Title
THE APPLICATION OF THE MODIFIED GLAUBER MODEL II FOR THE DESCRIPTION PROTON-NUCLEUS SCATTERING:: EFFECT OF RELATIVISTIC AND NON-RELATIVISTIC OPTICAL POTENTIALS.
- Authors
Ahmed, Hussein M. A.; Esmael, E. H.
- Abstract
Calculations of total reaction cross-sections and differential cross-sections using the modified Glauber model II for p–[sup 16]O scattering in the energy range 100–497.5 MeV are compared with experimental data. The real parts of the nuclear central potential and spin-orbit potential were used to calculate the modified Glauber model II. The nuclear potential was constructed using two approaches: the Dirac-equation-based optical potential and the non-relativistic treatment. The phenomenological and analytical methods are used to calculate these two approaches. The strength of the real parts of central and spin-orbit potentials are normalized to the best fit to the data. The best values were obtained close to unity. Most of the calculations derived from the Dirac-equation-based optical potentials were more comparable with the experimental data than the non-relativistic calculations. This may be attributed to the delicate cancellation between the short-range repulsive and the long-range attractive contributions. The present investigation indicated that a good choice of the potential at given energy offers a reliable determination of the impact parameter estimated according to the modified Glauber model II.
- Subjects
PROTONS; NUCLEAR physics; HEAVY ion collisions; COLLISIONS (Nuclear physics); ATOMS; PHYSICS
- Publication
International Journal of Modern Physics E: Nuclear Physics, 2003, Vol 12, Issue 6, p845
- ISSN
0218-3013
- Publication type
Article
- DOI
10.1142/S0218301303001594