Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies
Taha, M., esmail, S. (2024). Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies. EKB Journal Management System, 57(2), 31-38. doi: 10.21608/ajnsa.2024.251756.1796
mahmoud Mohamed Taha; samia esmail. "Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies". EKB Journal Management System, 57, 2, 2024, 31-38. doi: 10.21608/ajnsa.2024.251756.1796
Taha, M., esmail, S. (2024). 'Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies', EKB Journal Management System, 57(2), pp. 31-38. doi: 10.21608/ajnsa.2024.251756.1796
Taha, M., esmail, S. Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies. EKB Journal Management System, 2024; 57(2): 31-38. doi: 10.21608/ajnsa.2024.251756.1796

Extension of Phase Variation, Higher Momentum Transfer Components, and Pauli Blocking effects on Reaction Cross Sections to Lower and Medium Energies

Arab Journal of Nuclear Sciences and Applications
Volume 57, Issue 2, April 2024, Page 31-38  XML PDF (712.02 K)
Document Type: Original Article
DOI: 10.21608/ajnsa.2024.251756.1796
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Authors
mahmoud Mohamed Taha email 1; samia esmail2
1Mathematics and Theoretical Physics Department, NRC, Egyptian Atomic Energy Authority, Cairo, Egypt.
2department of mathematics and theoretical physics, nuclear search center,atomic energy authority,Inshas
Abstract
The nucleus-nucleus total reaction cross section at 30-1000 MeV/n is studied, using a modified Coulomb Glauber model, which includes combined effects due to phase variation, higher momentum transfer components, Pauli blocking, and a finite range. The total reaction cross sections of the reactions: 12C + 12C, 4He + 16O, 20Ne + 12C, 8Li + 9Be, 8Li + 12C and 8Li + 27Al using different densities of the harmonic oscillator single-particle wave function (SDHO) are calculated and compared with the available experimental data and previous calculations. Using a simulated search program, the phase variation γ_NN parameter is treated as a free parameter to fit the experimental data of the reaction cross section R. A good agreement with the experimental data is obtained. The relationship between the phase variation and finite range parameters as a function of incident energy is discussed. We investigated combined effects on p - 16O reaction cross sections and compared with the available experimental data and previous calculations.
Keywords
Nuclear Reaction; Total reaction cross-section; Glauber model
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