超高能原质子和铁核在广泛空气簇中纵向发展的细化效应研究

Al-Mustansiriyah Journal of Sciences Pub Date : 2020-08-20 DOI:10.23851/mjs.v31i3.843

A. R. Raham, A. AL-RUBAIEE, Majida H. Al-kubaisy, S. N. Esmaeel

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摘要

本文通过估算各种宇宙射线粒子在极高能量下的大范围空气阵雨的纵向发展模型，描述了大范围空气阵雨效应。模拟了高能(10 17、10 18和10 19 eV)下γ、带电介子和带电μ子的纵向发展。采用19.04.0版本的风淋室模拟系统(AIRES)进行模拟。考虑了初生粒子、能量、细化能和天顶角(θ)对带电粒子(纵向发展)数量的影响。对带电介子和带电介子等带电粒子纵向发展的估计与AUGER实验的测量结果相吻合，结果表明，当θ =0˚时，主质子的固定能量为10 19 eV。

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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Studying the thinning Effect of Longitudinal development in Extensive Air Showers for Primary Proton and Iron Nuclei at Ultra-High Energies

In the present work, extensive air showers (EAS) effects are described by estimating the longitudinal development model of EAS at very high energies of various cosmic ray particles. The longitudinal development was simulated for charged particles such as gamma, charged pions and charged muons at very high energies 10 17 , 10 18 and 10 19 eV. The simulation was performed using an air shower simulator system (AIRES) version 19.04.0. The effect of primary particles, energies, thinning energy and zenith angle (θ) on the number of charged particles (longitudinal development) produced in the EAS was taken into account. The rapprochement of the estimated longitudinal development of the charged particles such as the charged muons and charged pions with the experimental measurements (AUGER experiment) that gave a good agreement for primary proton at the fixed primary energy 10 19 eV for θ =0˚.

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Al-Mustansiriyah Journal of Sciences

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