System size dependence of final state hadron sources at E lab = 3.7 A GeV

Journal of Physics G Pub Date : 2020-04-01 DOI:10.1088/1361-6471/ab5d92

A. Abdelsalam, M. El–Nagdy, B. Badawy, A. Saber

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引用次数: 2

Abstract

3.7A GeV 4He, 16O, and 32S beams from Dubna Synchrophasotron interacting in nuclear emulsion are used. The final state hadrons are approached by the produced shower particles. The dependence on the system size is examined. The data are discriminated according to the emission in the forward and backward zones over the 4p space. Minimum biased samples of events corresponding to average impact parameters are selected randomly. The data are compared to a simulation based on the modified FRITIOF event generator, implementing the Lund model string dynamics. The multiplicity characteristics present an overview of the parameters obtained when the distributions are fitted by the multisource thermal model. The forward emitted shower particles are suggested to be created in hadronization system due to multisource superposition. The backward emitted ones mostly result from target nucleus decay source in the framework of the limiting fragmentation hypothesis. Empirical parameterizations based primarily on fitting procedures are undertaken to fulfill the universality of some uniform relationships. Systematic uncertainties are estimated in terms of standard deviation within errors.

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电子实验室末态强子源的系统大小依赖性= 3.7 A GeV

采用来自Dubna同步加速器的3.7A GeV 4He, 16O和32S光束在核乳液中相互作用。产生的阵雨粒子接近最终态强子。对系统大小的依赖性进行了检查。根据4p空间上向前和向后区域的发射来区分数据。随机选取与平均冲击参数相对应的事件最小偏差样本。将数据与基于改进的FRITIOF事件生成器的仿真数据进行比较，实现了Lund模型串动力学。多重性特征反映了用多源热模型拟合分布时得到的参数概况。在强子化系统中，由于多源叠加，可能产生正向发射的阵雨粒子。在极限破片假设的框架下，反向发射的主要是靶核衰变源。主要基于拟合过程的经验参数化是为了满足一些一致关系的普遍性。系统不确定度是根据误差内的标准差估计的。

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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Journal of Physics G

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