Elastic and total reaction cross sections of oxygen isotopes in Glauber

 theory

Abu-Ibrahim, B.; Kohama, A; Suzuki, Y.; Horiuchi, W.; Iwasaki, S

doi:10.1143/JPSJ.78.044201

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Elastic and total reaction cross sections of oxygen isotopes in Glauber theory

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Author(s): B. Abu-Ibrahim, A Kohama, Y. Suzuki, W. Horiuchi, S Iwasaki

Publication date: 2009-06-25

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Abstract

We systematically calculate the total reaction cross sections of oxygen isotopes, \(^{15-24}\)O, on a \(^{12}\)C target at high energies using the Glauber theory. The oxygen isotopes are described with Slater determinants generated from a phenomenological mean-field potential. The agreement between theory and experiment is generally good, but a sharp increase of the reaction cross sections from ^{21}O to ^{23}O remains unresolved. To examine the sensitivity of the diffraction pattern of elastic scattering to the nuclear surface, we study the differential elastic-scattering cross sections of proton-^{20,21,23}O at the incident energy of 300 MeV by calculating the full Glauber amplitude.