Anisotropic Forbush decrease of 24 March 2024: First look

IF 2.8 3区地球科学 Q2 ASTRONOMY & ASTROPHYSICS

Advances in Space Research Pub Date : 2024-08-14 DOI:10.1016/j.asr.2024.08.027

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Abstract

A strong Forbush decrease, i.e., suppression of the flux of galactic cosmic rays recorded on Earth, was observed by the global network of ground-based neutron monitors (NMs) on 24 – 25 March 2024. The decrease was very unusual as characterised by so rapid recovery that a false Ground-level enhancement (GLE) alarm was produced by the corresponding warning systems. Here we present the first comprehensive collection and analysis of the available data for this event. The event was highly anisotropic as exhibited in a 3-h spread of the deep-phase timing for different NMs. The anisotropy was focused nearly at the anti-sunward direction with a narrow cone of 20 – 30 $°$ . The heliospheric situation leading to this unusual Forbush decrease was quite complex. An analysis of first look records was performed, considering the stations acceptance, taking into account the complex geomagnetic conditions. A leader fraction analysis indicates that the recovery phase of the event was rigidity-independent and had essentially the same spectral shape as the pre-event period. A summary of the solar-terrestrial phenomena is provided to assist in future work on modelling this complex event.

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2024 年 3 月 24 日的各向异性福布什下降：初见

2024年3月24日至25日，地基中子监测器（NMs）全球网络观测到强烈的福布什下降，即地球上记录到的银河宇宙射线通量受到抑制。这种减弱非常不寻常，其特点是恢复得非常快，以至于相应的预警系统发出了错误的地面增强（GLE）警报。在此，我们首次全面收集和分析了这一事件的可用数据。该事件具有高度各向异性，这表现在不同 NM 的深相位时差为 3 小时。各向异性几乎集中在反太阳方向，呈 20 - 30° 的窄锥形。导致这种不同寻常的福布什下降的日光层情况相当复杂。考虑到复杂的地磁条件，对首次观测记录进行了分析，同时考虑到观测站的接受情况。领导分数分析表明，该事件的恢复阶段与刚性无关，其光谱形状与事件发生前基本相同。本文对日地现象进行了总结，以协助今后模拟这一复杂事件的工作。

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

Advances in Space Research 地学天文-地球科学综合

CiteScore

5.20

自引率

11.50%

发文量

800

审稿时长

5.8 months

期刊介绍： The COSPAR publication Advances in Space Research (ASR) is an open journal covering all areas of space research including: space studies of the Earth''s surface, meteorology, climate, the Earth-Moon system, planets and small bodies of the solar system, upper atmospheres, ionospheres and magnetospheres of the Earth and planets including reference atmospheres, space plasmas in the solar system, astrophysics from space, materials sciences in space, fundamental physics in space, space debris, space weather, Earth observations of space phenomena, etc. NB: Please note that manuscripts related to life sciences as related to space are no more accepted for submission to Advances in Space Research. Such manuscripts should now be submitted to the new COSPAR Journal Life Sciences in Space Research (LSSR). All submissions are reviewed by two scientists in the field. COSPAR is an interdisciplinary scientific organization concerned with the progress of space research on an international scale. Operating under the rules of ICSU, COSPAR ignores political considerations and considers all questions solely from the scientific viewpoint.