Fifty years of studying the GCR intensity during inversion of heliospheric magnetic fields I. Observations

Solnechno-Zemnaya Fizika Pub Date : 2023-12-20 DOI:10.12737/szf-94202301

Mikhail Krainev, Galina Bazilevskaya, Mikhail Kalinin, Vladimir Mihaylov, A. Svirzhevskaya, Nikolay Svirzhevsky

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Abstract

The effects of the 22-year variation of solar magnetic fields in the galactic cosmic ray (GCR) intensity were first observed and interpreted as manifestations of inversion of the high-latitude solar magnetic field in properties of heliospheric magnetic fields by the Lebedev Physical Institute team in 1973. Since then, these effects have been studied already for 50 years. The situation with the heliospheric magnetic field is clear for periods of medium and low sunspot activity — the heliosphere consists of two unipolar “hemispheres” separated by a wavy global heliospheric current sheet and characterized by a general polarity A (unit quantity with the sign of the radial component of the heliospheric magnetic field in the northern hemisphere). Yet there is no consensus on what the inversion of the heliospheric magnetic field is and which effects in the GCR intensity are connected with this phenomenon. In this article, we briefly formulate general concepts of the 22-year variation in characteristics of the Sun, heliosphere, and GCR intensity and discuss the observed effects in the GCR intensity, which we attribute to the heliospheric magnetic field reversal. Models for this phenomenon and the results of GCR intensity calculations with these models will be discussed in the next article.

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研究日光层磁场反转过程中的 GCR 强度五十年 I. 观测结果

列别杰夫物理研究所团队于 1973 年首次观测到太阳磁场 22 年变化对银河宇宙射线（GCR）强度的影响，并将其解释为高纬度太阳磁场在日光层磁场特性中的反转表现。从那时起，对这些效应的研究已经持续了 50 年。日光层磁场的情况在中等和低太阳黑子活动时期是很清楚的--日光层由两个单极 "半球 "组成，被波浪形的全球日光层电流片分隔开来，其特征是一般极性 A（单位量与北半球日光层磁场径向分量的符号有关）。然而，对于什么是日光层磁场反转，以及 GCR 强度中的哪些效应与这一现象有关，目前还没有达成共识。在这篇文章中，我们简要提出了太阳、日光层和 GCR 强度特征 22 年变化的一般概念，并讨论了观测到的 GCR 强度效应，我们将其归因于日光层磁场反转。下一篇文章将讨论这一现象的模型以及用这些模型计算 GCR 强度的结果。

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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