不同太阳活动对波兰闪电活动的影响

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2022-12-01 DOI:10.2478/arsa-2022-0010
J. Blecki, R. Iwański, R. Wronowski, Paweł Jujeczko
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引用次数: 0

摘要

摘要太阳活动和雷暴活动之间的联系问题并不是什么新鲜事。科学家之间的讨论始于宇宙时代之前。自20世纪50年代以来,一直在进行宇宙射线通量的地面登记和气象观测的相关性研究。所讨论的问题与宇宙射线对云,特别是雷暴云的形成的影响有关。银河系宇宙射线通量的强度由太阳风的密度和速度控制。在高太阳活动期间,太阳风通量的增加导致银河系宇宙射线通量的减少,但另一方面,太阳活动产生了太阳宇宙射线。利用PERUN系统和DEMETER卫星的数据,我们试图估计DEMETER运行活动期间(2004–2010)波兰雷暴活动与太阳活动之间的联系。还讨论了雷暴对电离层的影响及其对太阳活动的依赖性。然而,由于可用数据的时间间隔很短,覆盖了太阳周期的一个不重要的部分,接近最小活动,我们的发现并不完全是结论性的。宇宙射线通量和放电次数给出的闪电活动之间并没有发现相关性。然而,在所分析的时间段内,一些最高能的闪电放电发生在接近太阳活动最小的时候,并对它们的出现进行了讨论。
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Study of the Lightning Activity Over Poland for Different Solar Activity
Abstract The question of the connection between solar and thunderstorm activity is not new. The discussion among scientists began before the cosmic era. The correlations of the ground-based registration of the cosmic ray flux and meteorological observations have been performed since the 50s of the 20th century. The discussed problem is related to the influence of cosmic rays on the creation of clouds, particularly thunderstorm clouds. The intensity of the galactic cosmic ray flux is controlled by the density and velocity of the solar wind. The increase in the solar wind flux during high solar activity leads to decreasing galactic cosmic ray flux, but on the other hand, the solar activity creates solar cosmic rays. Using data from the PERUN system and the DEMETER satellite, we tried to estimate the connection between the thunderstorm activity in Poland and solar activity during the period of the DEMETER operational activity (2004–2010). The influence of thunderstorms on the ionosphere and its dependence on solar activity is also discussed. However, due to the short time interval of the available data covering an insignificant part of the solar cycle, close to the minimum activity, our findings are not fully conclusive. No correlation was found between the cosmic ray flux and lightning activity given by the number of the discharges. However, some of the most energetic lightning discharges in the analyzed period occurred close to the minimum of the solar activity and their appearance is discussed.
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