超高能量宇宙线粒子碰撞中的玻色-爱因斯坦凝聚和μ介子产生

IF 0.3 4区 物理与天体物理 Q4 PHYSICS, NUCLEAR Physics of Atomic Nuclei Pub Date : 2024-07-06 DOI:10.1134/S1063778824700108
V. A. Okorokov
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引用次数: 0

摘要

摘要具有超高初始能量的宇宙射线粒子与大气层中的原子核发生碰撞,为多粒子产生过程中出现新的动力学特征开辟了广阔的空间。特别是,玻色-爱因斯坦凝聚驱动的粒子激光行为将导致向更大倍率的转变,从而在总体上提高宇宙μ介子的产率。在本研究中,我们估算了玻色-爱因斯坦凝聚玻色-爱因斯坦凝聚玻色子(pion)波包进入同一波包态的空间带电粒子密度临界值,该临界值是在对应于超高能量宇宙线(UHECR)能量域的具有完全多粒子对称性的模型中估算的。在不存在玻色-爱因斯坦效应和存在类似激光行为的离子的情况下,对带电离子平均密度的能量依赖性进行了评估。讨论了玻色-爱因斯坦凝聚对超高能量宇宙射线粒子与大气层碰撞中μ介子产生的可能影响。
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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Bose–Einstein Condensation and Muon Production in Ultrahigh Energy Cosmic Ray Particle Collisions

Collisions of cosmic ray particles with ultrahigh initial energies with nuclei in the atmosphere open a wide room for appearing of the novel dynamical features for multiparticle production processes. In particular, the laser-like behavior of pions driven by Bose–Einstein condensation would result in the shift to larger multiplicities and, as a consequence, could provide, in general, the enhanced yield of cosmic muons. In the present work the critical value of the space charged particle density for onset of Bose–Einstein condensation of the boson (pion) wave packets into the same wave-packet state is estimated within the model with complete multiparticle symmetrization for the energy domain corresponding to the ultrahigh energy cosmic rays (UHECR). Energy dependence of mean density of charged pions is evaluated for the cases of absence of the Bose–Einstein effects and for presence of laser-like behavior of pions. The possible influence of the Bose–Einstein condensation is discussed for the muon production in UHECR particle collisions with the atmosphere.

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来源期刊
Physics of Atomic Nuclei
Physics of Atomic Nuclei 物理-物理:核物理
CiteScore
0.60
自引率
25.00%
发文量
56
审稿时长
3-6 weeks
期刊介绍: Physics of Atomic Nuclei is a journal that covers experimental and theoretical studies of nuclear physics: nuclear structure, spectra, and properties; radiation, fission, and nuclear reactions induced by photons, leptons, hadrons, and nuclei; fundamental interactions and symmetries; hadrons (with light, strange, charm, and bottom quarks); particle collisions at high and superhigh energies; gauge and unified quantum field theories, quark models, supersymmetry and supergravity, astrophysics and cosmology.
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