Space weather: the solar perspective

IF 20.9 1区 物理与天体物理 Living Reviews in Solar Physics Pub Date : 2021-06-29 DOI:10.1007/s41116-021-00030-3
Manuela Temmer
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引用次数: 64

Abstract

The Sun, as an active star, is the driver of energetic phenomena that structure interplanetary space and affect planetary atmospheres. The effects of Space Weather on Earth and the solar system is of increasing importance as human spaceflight is preparing for lunar and Mars missions. This review is focusing on the solar perspective of the Space Weather relevant phenomena, coronal mass ejections (CMEs), flares, solar energetic particles (SEPs), and solar wind stream interaction regions (SIR). With the advent of the STEREO mission (launched in 2006), literally, new perspectives were provided that enabled for the first time to study coronal structures and the evolution of activity phenomena in three dimensions. New imaging capabilities, covering the entire Sun-Earth distance range, allowed to seamlessly connect CMEs and their interplanetary counterparts measured in-situ (so called ICMEs). This vastly increased our knowledge and understanding of the dynamics of interplanetary space due to solar activity and fostered the development of Space Weather forecasting models. Moreover, we are facing challenging times gathering new data from two extraordinary missions, NASA’s Parker Solar Probe (launched in 2018) and ESA’s Solar Orbiter (launched in 2020), that will in the near future provide more detailed insight into the solar wind evolution and image CMEs from view points never approached before. The current review builds upon the Living Reviews article by Schwenn from 2006, updating on the Space Weather relevant CME-flare-SEP phenomena from the solar perspective, as observed from multiple viewpoints and their concomitant solar surface signatures.

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太空天气:太阳的视角
太阳,作为一颗活跃的恒星,是构成行星际空间和影响行星大气的能量现象的驱动者。随着人类航天飞行为月球和火星任务做准备,空间天气对地球和太阳系的影响越来越重要。本文综述了太阳视角下的空间天气相关现象,包括日冕物质抛射(cme)、耀斑、太阳高能粒子(sep)和太阳风流相互作用区(SIR)。随着STEREO任务(2006年发射)的到来,从字面上讲,提供了新的视角,使我们第一次能够在三维空间上研究日冕结构和活动现象的演变。新的成像能力,覆盖整个太阳-地球距离范围,可以无缝连接日冕物质抛射和他们的行星际对应的原位测量(所谓的ICMEs)。这极大地增加了我们对太阳活动引起的行星际空间动力学的认识和理解,并促进了空间天气预报模型的发展。此外,我们正面临着从两个非凡的任务中收集新数据的挑战,美国宇航局的帕克太阳探测器(2018年发射)和欧洲航天局的太阳轨道飞行器(2020年发射),这将在不久的将来提供更详细的太阳风演化信息,并从从未接近过的视角拍摄cme图像。当前的评论建立在2006年Schwenn的生活评论文章的基础上,从太阳的角度更新了空间天气相关的日冕物质抛射-耀斑- sep现象,从多个角度观察到它们伴随的太阳表面特征。
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来源期刊
Living Reviews in Solar Physics
Living Reviews in Solar Physics ASTRONOMY & ASTROPHYSICS-
自引率
1.40%
发文量
3
期刊介绍: Living Reviews in Solar Physics, a platinum open-access journal, publishes invited reviews covering research across all areas of solar and heliospheric physics. It distinguishes itself by maintaining a collection of high-quality reviews regularly updated by the authors. Established in 2004, it was founded by the Max Planck Institute for Solar System Research (MPS). "Living Reviews®" is a registered trademark of Springer International Publishing AG.
期刊最新文献
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