Single-proton removal reaction in the IQMD+GEMINI model benchmarked by elemental fragmentation cross sections of $^{29-33}\mathrm{Si}$ on carbon at $\sim$230~MeV/nucleon

arXiv - PHYS - Nuclear Experiment Pub Date : 2024-07-19 DOI:arxiv-2407.14697

Guang-Shuai Li, Jun Su, Satoru Terashima, Jian-Wei Zhao, Er-Xi Xiao, Ji-Chao Zhang, Liu-Chun He, Ge Guo, Wei-Ping Lin, Wen-Jian Lin, Chuan-Ye Liu, Chen-Gui Lu, Bo Mei, Dan-Yang Pang, Ye-Lei Sun, Zhi-Yu Sun, Meng Wang, Feng Wang, Jing Wang, Shi-Tao Wang, Xiu-Lin Wei, Xiao-Dong Xu, Jun-Yao Xu, Li-Hua Zhu, Yong Zheng, Mei-Xue Zhang, Xue-Heng Zhang

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Abstract

We report on the first measurement of the elemental fragmentation cross sections (EFCSs) of $^{29-33}\mathrm{Si}$ on a carbon target at $\sim$230~MeV/nucleon. The experimental data covering charge changes of $\Delta Z$ = 1-4 are reproduced well by the isospin-dependent quantum molecular dynamics (IQMD) coupled with the evaporation GEMINI (IQMD+GEMINI) model. We further explore the mechanisms underlying the single-proton removal reaction in this model framework. We conclude that the cross sections from direct proton knockout exhibit a overall weak dependence on the mass number of $\mathrm{Si}$ projectiles. The proton evaporation induced after the projectile excitation significantly affects the cross sections for neutron-deficient $\mathrm{Si}$ isotopes, while neutron evaporation plays a crucial role in the reactions of neutron-rich $\mathrm{Si}$ isotopes. It is presented that the relative magnitude of one-proton and one-neutron separation energies is an essential factor that influences evaporation processes.

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以$^{29-33}\mathrm{Si}$在$\sim$230~MeV/核子条件下在碳上的元素碎片横截面为基准的IQMD+GEMINI模型中的单质子清除反应

我们报告了在$\sim$230~MeV/核子条件下对碳靶上的$^{29-33}\mathrm{Si}$元素碎片截面（EFCSs）的首次测量。等空间依赖量子分子动力学（IQMD）与蒸发 GEMINI（IQMD+GEMINI）模型很好地再现了$\DeltaZ$ = 1-4的电荷变化实验数据。我们在这个模型框架内进一步探索了单质子去除反应的基本机制。我们得出结论：质子直接敲除的截面总体上表现出对$mathrm{Si}$弹丸质量数的微弱依赖性。射弹激发后引起的质子蒸发对中子缺乏的$\mathrm{Si}$同位素的截面有显著影响，而中子蒸发在中子丰富的$\mathrm{Si}$同位素的反应中起着关键作用。研究表明，一质子和一中子分离能的相对大小是影响蒸发过程的一个重要因素。

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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arXiv - PHYS - Nuclear Experiment

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