A Detailed Model of Magnetic Field Sources of the Earth’s Core Obtained by Solving the Inverse Problem of Magnetometry

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Russian Geology and Geophysics Pub Date : 2023-02-25 DOI:10.2113/rgg20224493
V. Kochnev
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Abstract

—Magnetic field sources are sometimes approximated by magnetic dipoles or current loops. The usefulness of such approximations is not obvious at the initial stage of the study of objects. Investigating them in detail requires volumetric magnetic field sources. In this paper, they are represented by magnetized prisms. Such a model is valid due to the equivalence of current and magnetized objects. As there should be no real magnetization in the core, this property of a virtual prism to generate a magnetic field strength is referred to as virtual or effective magnetization (EM), which is determined for each prism by solving the inverse problem via the adaptive method. Initial data for solving the inverse problem are the Z vector components of the main magnetic field of the IGRF-2005 model in the geocentric coordinate system. Based on the effective magnetization and known formulas, the bulk current distribution, the bulk current density, and the magnetic moments of prisms of a two-layer core model are obtained. Their sum coincides with the magnetic moment of the virtual central dipole of the core, but, as many scientists assumed, the central dipole is not actually distinguished. At the same time, four significant inhomogeneities are identified in the core, which create the Canadian, Siberian-Asian, Australian, and negative South Atlantic global anomalies on the Earth’s surface. Based on the analysis of the results obtained, assumptions are made that the current generating the magnetic field is the motion of a positively weakly charged liquid of the core. Liquid motion is created by the rotation of the Earth and the decelerating gravitational forces of the Moon and the Sun. Arguments are given to support these assumptions. The results are illustrated in figures.
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用磁力计反问题求解地核磁场源的详细模型
磁场源有时用磁偶极子或电流环来表示。在研究对象的初始阶段,这种近似的有用性并不明显。详细研究它们需要体积磁场源。在本文中,它们用磁化棱镜表示。这种模型是有效的,因为电流和磁化物体是等价的。由于磁芯内不存在实际磁化强度,因此虚拟棱镜产生磁场强度的这种特性称为虚拟或有效磁化强度(EM),通过自适应方法求解反问题来确定每个棱镜的磁化强度。求解逆问题的初始数据是在地心坐标系下IGRF-2005模型主磁场的Z矢量分量。根据有效磁化强度和已知公式,得到了双层铁芯模型中棱镜的体电流分布、体电流密度和磁矩。它们的总和与磁芯的虚拟中心偶极子的磁矩一致,但是,正如许多科学家所假设的那样,中心偶极子实际上并没有被区分出来。同时,在地核中发现了四个显著的不均匀性,这些不均匀性造成了地球表面上的加拿大、西伯利亚-亚洲、澳大利亚和负南大西洋全球异常。在对所得结果分析的基础上,假设产生磁场的电流是磁心带正电的弱电荷液体的运动。液体运动是由地球的自转和月球和太阳的减速引力造成的。给出了支持这些假设的论据。结果用图表说明。
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来源期刊
Russian Geology and Geophysics
Russian Geology and Geophysics 地学-地球科学综合
CiteScore
2.00
自引率
18.20%
发文量
95
审稿时长
4-8 weeks
期刊介绍: The journal publishes original reports of theoretical and methodological nature in the fields of geology, geophysics, and geochemistry, which contain data on composition and structure of the Earth''s crust and mantle, describes processes of formation and general regularities of commercial mineral occurrences, investigations on development and application of geological-geophysical methods for their revealing. As to works of regional nature, accelerated publication are available for original papers on a variety of problems of comparative geology taking into account specific character of Siberia, adjacent Asian countries and water areas. The journal will also publish reviews, critical articles, chronicle of the most important scientific events, and advertisements.
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