Relation between Latitude-dependent Sunspot Data and Near-Earth Solar Wind Speed

IF 4.8 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Qirong Jiao, Wenlong Liu, Dianjun Zhang, Jinbin Cao
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引用次数: 0

Abstract

Abstract Solar wind is important for the space environment between the Sun and the Earth and varies with the sunspot cycle, which is influenced by solar internal dynamics. We study the impact of latitude-dependent sunspot data on solar wind speed using the Granger causality test method and a machine-learning prediction approach. The results show that the low-latitude sunspot number has a larger effect on the solar wind speed. The time delay between the annual average solar wind speed and sunspot number decreases as the latitude range decreases. A machine-learning model is developed for the prediction of solar wind speed considering latitude and time effects. It is found that the model performs differently with latitude-dependent sunspot data. It is revealed that the timescale of the solar wind speed is more strongly influenced by low-latitude sunspots and that sunspot data have a greater impact on the 30 day average solar wind speed than on a daily basis. With the addition of sunspot data below 7.°2 latitude, the prediction of the daily and 30 day averages is improved by 0.23% and 12%, respectively. The best correlation coefficient is 0.787 for the daily solar wind prediction model.
与纬度相关的太阳黑子数据与近地太阳风速度的关系
太阳风是太阳与地球之间空间环境的重要组成部分,太阳风随太阳黑子周期的变化而变化,而太阳黑子周期受太阳内部动力学的影响。我们使用格兰杰因果检验方法和机器学习预测方法研究了与纬度相关的太阳黑子数据对太阳风速度的影响。结果表明,低纬度太阳黑子数对太阳风速度的影响较大。年平均太阳风速度与黑子数之间的时间差随纬度范围的减小而减小。建立了考虑纬度和时间影响的太阳风速度预测的机器学习模型。发现该模型对与纬度相关的太阳黑子数据有不同的表现。结果表明,低纬度黑子对太阳风速度的时间尺度影响更大,黑子资料对30天平均太阳风速度的影响大于日平均太阳风速度。加上7以下的太阳黑子数据。°2纬度,日平均和30天平均预报分别提高0.23%和12%。日太阳风预报模型的最佳相关系数为0.787。
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
Astrophysical Journal
Astrophysical Journal 地学天文-天文与天体物理
CiteScore
8.40
自引率
30.60%
发文量
2854
审稿时长
1 months
期刊介绍: The Astrophysical Journal is the foremost research journal in the world devoted to recent developments, discoveries, and theories in astronomy and astrophysics.
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