On the observed time evolution of cosmic rays in a new time domain

IF 3.1 2区物理与天体物理 Q1 ENGINEERING, AEROSPACE

Acta Astronautica Pub Date : 2024-09-18 DOI:10.1016/j.actaastro.2024.09.034

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引用次数: 0

Abstract

Since the 1990's, it has been recognized that the full explanation of cosmic rays (CR) and their spectrum may require some new physics. The debate on the origin of CR has led to the conclusion that while most CR come from supernova explosions in the Galaxy, CR with very high energies are likely of extragalactic origin. However, a response to several open questions, still unanswered, concerning CR above 10¹³ eV is required. We herewith study the temporal evolution of the observational CR using data collected by several stations of the ground-based network. The obtained result states that the power spectral density of the CR temporal evolution, especially with a frequency less than 0.1 Hz, exhibits the Kolmogorov-Obukhov 5/3 law that exhibits the energy spectrum of many geophysical quantities. Any small difference found from the 5/3 exponent can be attributed to intermittency corrections and the stations' characteristics. Moreover, natural time analysis applied to the CR time series showed the critical role of the quasi-biennial oscillation to the entropy maximization which occurs following the 5/3 Kolmogorov-Obukhov power law. These findings can be used to more reliably predict extreme CR events that could have an impact even at the molecular level.

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关于在新时域观测到的宇宙射线时间演变

自 20 世纪 90 年代以来，人们认识到要全面解释宇宙射线（CR）及其光谱可能需要一些新的物理学方法。关于宇宙射线起源的争论得出的结论是，虽然大多数宇宙射线来自银河系中的超新星爆炸，但能量非常高的宇宙射线很可能来自银河系外。然而，关于 1013 eV 以上的 CR，有几个悬而未决的问题需要回答。在此，我们利用地基网络几个观测站收集到的数据，研究了观测到的 CR 的时间演变。研究结果表明，CR 时间演变的功率谱密度，尤其是频率小于 0.1 Hz 的功率谱密度，呈现出柯尔莫哥洛夫-奥布霍夫 5/3 规律，而这一规律与许多地球物理量的能量谱相吻合。与 5/3 指数的任何微小差异都可归因于间歇修正和台站特性。此外，对 CR 时间序列进行的自然时间分析表明，准双年振荡对 5/3 柯尔莫哥洛夫-奥布霍夫幂律之后发生的熵最大化起着关键作用。这些发现可用于更可靠地预测甚至会在分子水平上产生影响的极端 CR 事件。

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

Acta Astronautica 工程技术-工程：宇航

CiteScore

7.20

自引率

22.90%

发文量

599

审稿时长

53 days

期刊介绍： Acta Astronautica is sponsored by the International Academy of Astronautics. Content is based on original contributions in all fields of basic, engineering, life and social space sciences and of space technology related to: The peaceful scientific exploration of space, Its exploitation for human welfare and progress, Conception, design, development and operation of space-borne and Earth-based systems, In addition to regular issues, the journal publishes selected proceedings of the annual International Astronautical Congress (IAC), transactions of the IAA and special issues on topics of current interest, such as microgravity, space station technology, geostationary orbits, and space economics. Other subject areas include satellite technology, space transportation and communications, space energy, power and propulsion, astrodynamics, extraterrestrial intelligence and Earth observations.