2005, Vol.8, No.2, pp.106-120

Within the formalism of Glauber's multiple scattering theory, the elastic scattering of proton with light- and medium-weighted nuclei () has been investigated by considering the quark structure of their constituents. The proton-nucleus calculations for the differential and total elastic cross-sections are performed using both a full series expansion of the optical phase-shift function and an optical phase-shift function calculated through fourth order. We also calculated the same differential and total elastic cross-sections using a conventional nucleon model together with Glauber theory. These calculations are carried out for the elastic collisions, p–deuteron at incident momenta of P_L=148, 174, 221, 248, 270, 289, 346 and 384 GeV/c, p–₆C¹², p–₈O¹⁶ and p–₂₀Ca⁴⁰ at center-of-mass energies of = 23.5, 30.7, 44.7 and 52.8 GeV and the results are compared with the available experimental data. The comparison reflects that the terms up to fourth order are adequate in describing such types of collisions and also shows that the nucleon model reproduces more satisfactorily the available experimental data than the quark model evaluations.
Key words: Glauber's multiple scattering theory, quark model, nucleon model, differential cross-section, total elastic cross-section

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