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 Pub Date : 2024-04-01 DOI:10.21608/ajnsa.2024.251756.1796

mahmoud Taha, samia esmail

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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, 8 Li + 12 C and 8 Li + 27 Al 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 - 16 O reaction cross sections and compared with the available experimental data and previous calculations.

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将相变、高动量传递成分和保利阻滞对反应截面的影响扩展到中低能量

使用修正的库仑-格劳伯模型研究了 30-1000 MeV/n 的核-核总反应截面，该模型包括相变、较高动量传递成分、保利阻挡和有限范围的综合效应。反应的总反应截面为计算了使用不同密度的谐振子单粒子波函数（SDHO）的 12C + 12C、4He + 16O、20Ne + 12C、8Li + 9Be、8Li + 12 C 和 8Li + 27 Al 反应的总反应截面，并与现有实验数据和以前的计算结果进行了比较。利用模拟搜索程序，将相位变化𝜸 𝑵𝑵参数作为自由参数来拟合反应截面  R 的实验数据。结果与实验数据吻合良好。讨论了相位变化和有限范围参数与入射能量之间的关系。我们研究了对 p - 16 O 反应截面的综合影响，并与现有实验数据和以前的计算结果进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Arab Journal of Nuclear Sciences and Applications NUCLEAR SCIENCE & TECHNOLOGY-

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