Hemispheric Distribution of Halo Coronal Mass Ejection Source Locations

Zhang, XiaoJuan; Deng, LinHua; Deng, Hui; Mei, Ying; Wang, Feng

doi:10.3847/1538-4357/ad18af

ApJ

2024

DOI: 10.3847/1538-4357/ad18af

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Hemispheric Distribution of Halo Coronal Mass Ejection Source Locations

XiaoJuan Zhang,

LinHua Deng,

Hui Deng

et al.

Abstract: The hemispheric asymmetry of solar activity is one of the essential physical consequences of the interior dynamo process. However, the hemispheric distribution of halo coronal mass ejection (HCME) source locations has not been investigated in detail. Based on the HCME catalog identified from the Large Angle and Spectrometric Coronagraph Experiment on board the Solar and Heliospheric Observatory, we perform a hemispheric distribution analysis of the HCME source locations from 1996 April to 2022 June. The main r… Show more

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Cited by 3 publications

References 102 publications

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Cross-Scale Phase Relationship of the Ca II K Index with Solar Wind Parameters: A Space Climate Focus

Reda,

Giovannelli,

Alberti

2024

Sol Phys

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The solar wind, representing one of the most impacting phenomena in the circum-terrestrial space, constitutes one of the several manifestations of the magnetic activity of the Sun. With the aim of shedding light on the scales beyond the rotational period of the Sun (i.e., Space Climate scales), this study investigates the phase relationship of a solar activity physical proxy, the Ca II K index, with solar wind properties measured near the Earth, over the whole space era (last five solar cycles). Using a powerful tool such as the Hilbert–Huang transform, we investigate the dependence of their phase coherence on the obtained time scale components. Phase coherence at the same time scales is found between all the components and is also preserved between adjacent components with time scales ≳ 2 yrs. Finally, given the availability of the intrinsic modes of oscillation, we explore how the relationship of Ca II K index with solar wind parameters depends on the time scale considered. According to our results, we hypothesize the presence of a bifurcation in the phase-space Ca II K index vs. solar wind speed (dynamic pressure), where the time scale seems to act as a bifurcation parameter. This concept may be pivotal for unraveling the complex interplay between solar activity and solar wind, bearing implications from the prediction and the interpretation point of view in Space Climate studies.

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Cross-Scale Phase Relationship of the Ca II K Index with Solar Wind Parameters: A Space Climate Focus

Reda,

Giovannelli,

Alberti

2024

Sol Phys

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Latitudinal and Solar Cycle Distribution of Extreme (≥X5) Flares During 1976–2018

Li,

Zhang,

2024

Res. Astron. Astrophys.

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We studied the latitudinal and solar cycle distribution of extreme (≥X5) solar flares spanning 1976 to 2018. We found that all such flares were confined within the latitudinal range of [S30, N35]. Nonetheless, the majority of these flares during different solar cycles were confined in different latitudinal scopes. Statistical results showed that the southeast quadrant experienced the highest activity of extreme flares. 47.5% of the extreme flares occurred within the latitudes ≤15◦ of the two hemispheres, with 26.2%, 31.1%, and 42.6% in the latitudinal bands [5◦, 10◦], >20◦ and [11◦, 20◦] of both hemispheres, respectively. Significant N-S asymmetries were observed in the ascending phase of SC 21, the descending phase of SC 23, and both phases of SC 24. Other phases showed asymmetries primarily in latitudinal distribution. The proportion of extreme flares in the ascend ing phases of SCs 21-24 was 22.2%, 33.3%, 38.9%, and 50%, respectively. Stronger flares (≥X10) were more likely to occur in the descending phase, with 39% of X5-X9 flares and 20% of (≥X10) flares occurring in the ascending phase. On average, 83.6% of extreme flares occurred within a period extending from two years prior to three years following the solar peak, according to our statistical analysis, with specific percentages for each cycle being 88.9%, 100%, 61.1%, and 75%.

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Mid-term Periodicity of Coronal Mass Ejections during the Time Interval 1996–2022

Ouyang 欧,

Deng 邓,

Wang 王

et al. 2024

ApJ

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Coronal mass ejections (CMEs) exhibit a wide range of quasiperiodic variations and are crucial for our understanding of the cyclical evolution of large-scale magnetic fields. However, the mid-term periodicities of different types of CMEs associated with different processes at the source location need to be clearly understood. Based on the CDAW catalog released by the Large Angle and Spectroscopic Coronagraph mission on the Solar and Heliospheric Observatory, we investigated the period of CMEs based on the speeds and accelerations using the continuous wavelet transformation method. Our results revealed that the distribution of CMEs over time is quite distinctly different for different speeds, and there are Rieger-type periods and quasi-biennial oscillations of the CMEs. The two types of periodic signals show significant differences in solar cycles 23 and 24. Furthermore, the periodicity patterns for the northern hemisphere differ from those in the southern hemisphere. The potential mechanisms and explanations of the results are also discussed.

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Hemispheric Distribution of Halo Coronal Mass Ejection Source Locations

Cited by 3 publications

References 102 publications

Cross-Scale Phase Relationship of the Ca II K Index with Solar Wind Parameters: A Space Climate Focus

Cross-Scale Phase Relationship of the Ca II K Index with Solar Wind Parameters: A Space Climate Focus

Latitudinal and Solar Cycle Distribution of Extreme (≥X5) Flares During 1976–2018

Mid-term Periodicity of Coronal Mass Ejections during the Time Interval 1996–2022

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