大规模全球传播的日冕波。

IF 20.9 1区 物理与天体物理
Living Reviews in Solar Physics Pub Date : 2015-01-01 Epub Date: 2015-12-30 DOI:10.12942/lrsp-2015-3
Alexander Warmuth
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引用次数: 0

摘要

自20世纪60年代以来,在太阳色球层和日冕中观测到大规模的、全球传播的波状扰动。然而,对这些现象的详细分析直到20世纪90年代末才开始进行。这是由于来自许多太空仪器的高节奏日冕成像数据的可用性,这些数据经常显示壮观的全球传播的明亮锋面。这些扰动通常被称为日冕波,现在已经在广泛的光谱通道中被观测到,产生了丰富的信息。许多发现支持了对这些扰动的“经典”解释:在日冕中传播的快模MHD波或冲击。然而,似乎与这一图景不一致的观测结果刺激了另一种模型的发展,在这种模型中,“伪波”是由不断扩大的日冕物质抛射框架中的磁重构产生的。这导致了关于这些扰动的物理性质的激烈辩论。这篇综述的重点是展示过去15年的大量观测发现如何用于约束我们的大尺度日冕波模型,以及如何最终出现对这些扰动的连贯物理理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large-scale Globally Propagating Coronal Waves.

Large-scale, globally propagating wave-like disturbances have been observed in the solar chromosphere and by inference in the corona since the 1960s. However, detailed analysis of these phenomena has only been conducted since the late 1990s. This was prompted by the availability of high-cadence coronal imaging data from numerous spaced-based instruments, which routinely show spectacular globally propagating bright fronts. Coronal waves, as these perturbations are usually referred to, have now been observed in a wide range of spectral channels, yielding a wealth of information. Many findings have supported the "classical" interpretation of the disturbances: fast-mode MHD waves or shocks that are propagating in the solar corona. However, observations that seemed inconsistent with this picture have stimulated the development of alternative models in which "pseudo waves" are generated by magnetic reconfiguration in the framework of an expanding coronal mass ejection. This has resulted in a vigorous debate on the physical nature of these disturbances. This review focuses on demonstrating how the numerous observational findings of the last one and a half decades can be used to constrain our models of large-scale coronal waves, and how a coherent physical understanding of these disturbances is finally emerging.

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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.
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