Manifestations of the Turbulent Component of the Global Solar Dynamo in an Activity Minimum

IF 0.7 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
R. A. Suleimanova, V. I. Abramenko
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Abstract

The solar dynamo generates a toroidal magnetic field that, forms active regions (ARs) on the surface of the Sun. The toroidal magnetic field lines rise through the turbulent convection zone, where distortions, deformation of already formed regular toroidal magnetic flux bundles and the formation of irregular, complex magnetic structures are possible. At the minimum of solar activity, the toroidal magnetic field of the old cycle disappears and the magnetic field of the new cycle is still very weak. During this period, it is possible to assess the role of the turbulence in the formation of an AR. In this paper, we analyzed ARs of two solar activity minima (between cycles 23–24 and between cycles 24–25). We analyzed ARs located within 60° from central meridian and exhibiting magnetic flux at the maximum development of at least 1021 Mx. Bipolar and multipolar ARs were divided into regular ones (consistent with the mean-field dynamo theory) and irregular ones, the formation of which was influenced by the turbulence of the convection zone (unipolar spots were considered separately). It was found that regular ARs significantly predominate during solar minima, their magnetic flux is a half or more of the total magnetic flux (0.6 for the first period, 0.5 for the second period). Irregular ARs are fewer in number than regular ones, and in terms of magnetic flux they make up about one-third of the total magnetic flux (0.3 and 0.2 in the first and second periods, respectively). Irregular ARs are predominantly represented by bipolar structures of improper orientation, while very complex multipolar ARs are extremely rare. It is concluded that the generation of ARs with the magnetic flux exceeding 1021 Mx occurs due to the global dynamo action, while the turbulence of the convection zone causes deformation of the magnetic flux bundles without significant magnetic flux generation.

Abstract Image

活动极小期全球太阳动力湍流成分的表现形式
太阳动力产生环形磁场,在太阳表面形成活跃区(ARs)。环形磁场线穿过湍流对流区上升,在这里,已经形成的规则环形磁通束可能发生扭曲、变形,并形成不规则的复杂磁结构。在太阳活动最小的时候,旧周期的环形磁场消失,新周期的磁场仍然非常微弱。在这一时期,可以评估湍流在 AR 形成过程中的作用。本文分析了两个太阳活动极小期(周期 23-24 之间和周期 24-25 之间)的 AR。我们分析了位于中心子午线 60° 以内、磁通量在最大发展时至少达到 1021 Mx 的 AR。双极和多极ARs被分为规则ARs(符合平均场动力理论)和不规则ARs,它们的形成受到对流区湍流的影响(单极点被单独考虑)。研究发现,在太阳极小期,规则AR明显占优势,其磁通量占总磁通量的一半或更多(第一期为0.6,第二期为0.5)。不规则 AR 的数量比规则 AR 少,就磁通量而言,它们约占总磁通量的三分之一(第一和第二周期分别为 0.3 和 0.2)。不规则的 AR 主要表现为方向不正确的双极结构,而非常复杂的多极 AR 则极为罕见。结论是,磁通量超过 1021 Mx 的 AR 的产生是由于全球发电机的作用,而对流区的湍流会导致磁通束变形,但不会产生大量磁通量。
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来源期刊
Geomagnetism and Aeronomy
Geomagnetism and Aeronomy Earth and Planetary Sciences-Space and Planetary Science
CiteScore
1.30
自引率
33.30%
发文量
65
审稿时长
4-8 weeks
期刊介绍: Geomagnetism and Aeronomy is a bimonthly periodical that covers the fields of interplanetary space; geoeffective solar events; the magnetosphere; the ionosphere; the upper and middle atmosphere; the action of solar variability and activity on atmospheric parameters and climate; the main magnetic field and its secular variations, excursion, and inversion; and other related topics.
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