冕流波及其冕震学应用研究综述

山东大学学报（理学版） ›› 2011, Vol. 46 ›› Issue (10): 66-74.

冕流波及其冕震学应用研究综述

陈耀¹,冯士伟¹,宋红强¹,李波¹,孔祥良¹,夏利东¹,李醒²,李刚^3,1

1.山东大学空间科学研究院, 山东大学威海分校空间科学与物理学院, 山东威海 264209;
2.亚伯里斯威斯大学数学与物理研究所, 英国威尔士;
3.阿拉巴马汉茨维尔大学物理与环境和大气科学系, 美国汉茨维尔

收稿日期:2011-08-04 出版日期:2011-10-20 发布日期:2011-10-18
作者简介:陈耀(1975- ),男,教授,博导,主要研究方向为日地空间物理学,空间天气学,特别是太阳爆发现象及其空间天气学效应. Email: yaochen@sdu.edu.cn
基金资助:
国家自然科学基金资助项目(40825014, 40890162, 40904047(李波), 40974105(夏利东),41028004(李刚));高等学校全国优秀博士学位论文作者专项资金(2007B24);山东省自然科学基金资助项目(ZR2010DQ016(宋红强))

A review on streamer waves and associated coronal seismological study

CHEN Yao¹, FENG Shi-wei¹, SONG Hong-qiang¹, LI Bo1, KONG Xiang-liang¹, XIA Li-dong¹, LI Xing², LI Gang^3,1

1. Institute of Space Science, Shandong University, School of Space Science and Physics,
Shandong University at Weihai, Weihai Shandong 264209;
2. Institute of Mathematics and Physics, Aberystwyth University, SY23 3BZ UK;
3. Department of Physics and CSPAR, University of Alabama in Huntsville, Huntsville, AL 35899, USA

Received:2011-08-04 Online:2011-10-20 Published:2011-10-18

摘要/Abstract

摘要：

本文综述了我们近两年来在冕流波(Streamer Waves)现象研究方面的进展。冕流波是由日冕物质抛射(CME)和冕流结构相互作用所激发的、沿等离子体片向外传播的波动过程,是迄今发现的最大尺度的日冕波动现象。冕流波被解释为由冕流等离子体片片状结构所支持的快体积扭曲模式。基于这一理解,我们结合有关的太阳风速度和数密度方面的观测限制,发展了一种新的冕震学方法,可利用波动参数的观测结果推断冕流等离子体片区域在3-10太阳半径范围的阿尔芬速度和磁场强度的径向剖面。我们还在第23太阳活动周内找到了8例较好的CME-冕流摆动事件,其中5例被认定为冕流波事件。比较这些事件发现,导致冕流波激发的CME都具有很高的喷发速度和角宽度,CME与冕流大都从侧面发生相互作用,且作用的最初位置大都位于C2视场的底部或下方,所有正面CME均伴有耀斑现象。这些共同观测特征为我们理解冕流波的激发条件提供了线索。

关键词: 日冕, 冕震学, 日冕物质抛射, 冕流波

Abstract:

In this paper, we review our latest studies on a newly-discovered phenomenon dubbed “streamer waves” which are excited in the aftermath of CME-streamer interaction. Streamer waves represent one of the largest wave phenomena ever observed in the solar corona. The wave mode is interpreted as the fast kink body mode supported by and propagating outwards along the plasma sheet of the streamer. With the white light coronagraph data and available observational constraints on the solar wind parameters, we develop a novel seimological technique to diagnose the radial profiles of the Alfv?n speed and magnetic field strength in the region surrouding the plasma sheet structure from 3 to 10 solar radii. We also conduct a data survey searching for welldefined streamer wave events observed by the SOHO／LASCO coronagraph throughout Solar Cycle 23. As a result, eight candidate events are found. We compare different events and find that in most of them the driving CMEs’ ejecta are characterized by a high speed and a wide angular span, and the CMEstreamer interactions occur generally along the flank of the streamer structure at an altitude no higher than the bottom of the field of view of LASCO C2. In addition, all front-side CMEs have accompanying flares. These common observational features shed light on the excitation conditions of streamer wave events.

Key words: corona, coronal mass ejections, streamer waves, coronal seismology

陈耀1,冯士伟1,宋红强1,李波1,孔祥良1,夏利东1,李醒2,李刚3,1. 冕流波及其冕震学应用研究综述[J]. 山东大学学报（理学版）, 2011, 46(10): 66-74.

CHEN Yao1, FENG Shi-wei1, SONG Hong-qiang1, LI Bo1, KONG Xiang-liang1, XIA Li-dong1, LI Xing2, LI Gang3,1. A review on streamer waves and associated coronal seismological study[J]. JOURNAL OF SHANDONG UNIVERSITY(NATURAL SCIENCE), 2011, 46(10): 66-74.

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