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1.
本文利用光球磁场、色球Hα单色像和Hβ速度场等观测资料,分析了1993年5月日面AR7500中3个暗条的演化和动力学行为,得出4个结论:(1)3个暗条中两人是右旋暗条,一个是左旋暗条。(2)暗条附近两侧的色球纤维和光球横场几乎平行于暗条长轴,暗条端点处的黑子没有呈现明显的涡旋结构。(3)尖角处因为轴向场取向不同,一直没有发生暗条合并,即使其中一个右旋暗条消失后又重新形成也如此。(4)几天持续存在的左旋暗条,在两天的观测中未出现扰动激活,其中部为杂乱而不明显的运动因素。本文还讨论了可以用暗条的扭曲磁流绳模型来解释暗条的这些动力学行为,以及一些尚待进一步澄清的问题。 相似文献
2.
利用云南天文台色球Hα单色像、SOHO/EITEUV单色像、SOHO/LASCO白光日冕观测、SOHO/MDI光球磁图及Nobeyama17GHz微波射电观测资料对2004年4月11日AR0588中的环形暗条爆发进行了初步的分析。主要结论如下:(1)爆发的暗条呈现封闭的环形。在Hα观测上爆发前有明显的激活态,表现为西半环变粗变厚,断裂出现缺口并缓慢向西南方向上升。在EIT195 观测上,此暗条爆发表现出两条扎根于爆发源区的亮带,其顶部可能是爆发中的暗条,而这两条亮带是暗条的两条腿。该暗条爆发是动力学爆发,但暗条等离子体在爆发过程中也受到明显的加热。(2)该暗条爆发伴随有一个明显的双带耀斑。一个带位于暗条爆发的中心,几乎不动,而另一个带呈环状包围爆发的暗条,展示明显的分离运动。这两个带之间,在耀斑后期出现明显的耀斑后环。(3)这一暗条爆发及耀斑与LASCO观测到的一个快速的、具有典型三部分结构的partialHaloCME在时间和空间上是密切相关的。 相似文献
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本文用数据方法分析了紫金山天文台色球望远镜观测的1996年3月24日3B级双带主资料,结果表明:由于新浮磁流改变背景磁场,光球剪切运动引起暗条圆柱轴向磁力线扭转而使暗条电流增加,致使暗条整体力学平衡破坏,驱动暗条向上运动。并对暗条上升运动与耀斑爆发的物理关系进行了分析讨论。 相似文献
4.
本文利用紫金山天文台的太阳精细结构望远镜在1991年10月至1992年6月间拍摄到的标准新浮磁流区(EFR)的资料,研究了四个EFR的生长和发展。我们的观测肯定了新浮磁流区早期的一些观测结果,如EFR从光球下浮出前色球大气就已被加热,以及引起磁场位形改变导致暗条激活。我们还发现反转磁极性的EFR并不向正常方向旋转,观测到EFR中的弧形暗条系(AFS)里除了正常的流动外,还具有和经典的AFS中物质流动相异常的运动。 相似文献
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用我国第一台高分辨光球——色球望远镜所取得的AR4811的高空间分辨(≤1″)的黑子和Hα色球照相资料分析了该活动区的精细结构的演化特征及有关耀斑活动。指出:(1)和当地原有磁场极性相同的新磁流的浮现在黑子群演化过程中起着阶段性的重要作用,但对活动区耀斑活动贡献不大。(2)有关暗条的各种频繁活动是当地耀斑的一种先兆。(3)活动区中相反极性磁场的相互挤压、剪切和旋转同时存在,是一个2B/M1.3级等一系列耀斑可能的储能机制。而与当地原有磁场极性相反的磁流环的浮现,是2B/M1.3级耀斑的可能触发因素。 相似文献
6.
利用色球Ha单色像、TRACE和SOHO/EITEUV单色像、SOH0/LASCO白光日冕观测及SOH0/MDI光球磁图,对2003年8月25日日面AR0442边界上2个暗条爆发的不同动力学行为及与之相关的耀斑、耀斑后环和CME等现象进行了分析。主要结论如下:(1)2个暗条的激活态和爆发过程有明显不同:暗条F1先变粗变黑,出现明显分叉,然后表现为whiplike爆发;而暗条F2一部分先消失,其余部分出现水平的轴向运动,最后F2整体爆发。(2)2个暗条的爆发机制是不同的:F1的爆发可能与新浮磁流密切相关,而F2的爆发与F1爆发产生的双带耀斑的分离运动和相互作用密切相关。 相似文献
7.
本文主要根据Ha线心和不同偏带的观测资料,结合紫外CIV1548谱线的测量结果,分析研究了1980年6月25日AR2522活动区中一段暗条在耀斑爆发前15分钟所经历的三次逐渐增强的间歇式扭绞,最终导致暗条破裂和耀斑爆发的物理过程,并且用无力场磁绳近似模拟时间条的扭绞运动,估算了暗条扭绞引直怕无力因子a的变化,轴向电流增大和守能,讨论了暗条的稳定性,试图对暗条的瓦解和耀斑爆发予以理论解释。 相似文献
8.
两个活动区电流暗条的平衡 总被引:3,自引:1,他引:2
本文利用Kuperu-Raadu模型下电流暗条在垂直方向上的力平衡方程,研究McMath10662和McMath10607两个活动区中暗条电流的变化及其垂直运动的规律,探讨暗条和耀斑的关系。结果表明:用具有镜象电流日珥模型来描述爆发日珥是合适的;暗条长度可能与耀斑高度关系不密切,但电流暗条越长,对应的临界电流值越大。 相似文献
9.
本文利用Kuperu—Raadu模型下电流暗条在垂直方向上的力平衡方程,研究McMath10662和McMath10607两个活动区中暗条电流的变化及其垂直运动的规律,探讨暗条和耀斑的关系。结果表明:用具有镜象电流的日珥模型来描述爆发日珥是合适的;暗条长度可能与耀斑高度关系不密切,但电流暗条越长,对应的临界电流值越大。 相似文献
10.
利用色球Hα、TRACE/WL、SOHO/EITEuV单色像观测资料及SOHO/MDI光球磁场观测资料,对2003年10月22日太阳活动区AR0484内发生的日浪事件进行了研究.发现:(1)在Ha线心观测上,日浪包含有亮、暗2个分量,这2个分量先后出现而且并不共空间.日浪的亮分量与UV和EUV波段上观测到的喷发具有较好的同时性和共空间性.(2)日浪喷发物质沿着EUV环运动。(3)在光球层,日浪足根处的黑子和磁场有明显的变化.这些观测结果支持日浪的磁重联模型。 相似文献
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12.
Magnetic Causes of the Eruption of a Quiescent Filament 总被引:1,自引:0,他引:1
B. Schmieder V. Bommier R. Kitai T. Matsumoto T. T. Ishii M. Hagino H. Li L. Golub 《Solar physics》2008,247(2):321-333
During the JOP178 campaign in August 2006, we observed the disappearance of our target, a large quiescent filament located at S25°, after an observation time of three days (24 August to 26 August). Multi-wavelength instruments were operating: THEMIS/MTR (“MulTi-Raies”) vector magnetograph, TRACE (“Transition Region and Coronal Explorer”) at 171 Å and 1600 Å and Hida Domeless Solar telescope. Counter-streaming flows (+/?10 km?s?1) in the filament were detected more than 24 hours before its eruption. A slow rise of the global structure started during this time period with a velocity estimated to be of the order of 1 km?s?1. During the hour before the eruption (26 August around 09:00 UT) the velocity reached 5 km?s?1. The filament eruption is suspected to be responsible for a slow CME observed by LASCO around 21:00 UT on 26 August. No brightening in Hα or in coronal lines, no new emerging polarities in the filament channel, even with the high polarimetry sensitivity of THEMIS, were detected. We measured a relatively large decrease of the photospheric magnetic field strength of the network (from 400 G to 100 G), whose downward magnetic tension provides stability to the underlying stressed filament magnetic fields. According to some MHD models based on turbulent photospheric diffusion, this gentle decrease of magnetic strength (the tension) could act as the destabilizing mechanism which first leads to the slow filament rise and its fast eruption. 相似文献
13.
1 IntroductionItisnowwellacceptedthemagneticfieldinfilamentisnearlyhorizontalandthecomponentofthefieldalongthefilamentaxisisdominant (D啨moulin ,1 997) .Whenafilamentispresentinactiveregion ,thephotospherictransversefieldbeneathfilamentmostlyliealongthepolar… 相似文献
14.
Lin Yuan-zhangV. Gaizauskas 《Chinese Astronomy and Astrophysics》1994,18(4):455-461
Based mainly on filtergrams ofH line center and various offbands and supplemented with measurements of the CIV 1548 line, we analyzed the evolution of a filament during a period of 15 minutes prior to the eruption of the flare of 1980 June 25 in the active region AR 2522. The filament underwent three spasmodic twistings of increasing size which finally led to its disruption and the flare eruption. We simulated the twisting motion of the filament by a force-free magnetic rope, estimated the variation of the force-free factor and the increase in the axial electric current, discussed the stability of the filament and attempted to give a theoretical explanation of the collapse of the filament and the eruption of the flare. 相似文献
15.
Makarov V. I. Stoyanova M. N. Sivaraman K. R. 《Journal of Astrophysics and Astronomy》1982,3(4):379-382
Ring-like filaments have been detected on the spectroheliograms in the H-alpha line. Inside these filaments the magnetic field
flux has a predominant polarity. Some of the dark filaments are connected by filament channels which can be seen at the limb
either as (a) weak prominences or (b) dense low chromospheric features or (c) multi-channel system of matter flow between
two prominences or (d) common quiescent prominences. The filament and the filament channel together form a continuous closed
contour and outline the region of thef polarity particularly at the beginning of the solar cycle. The change in sign of the polar field of the Sun is associated
with the drift of the filament band to high latitudes. 相似文献
16.
Jian-Xia Cheng Cheng Fang Peng-Fei Chen Ming-De Ding Department of Astronomy Nanjing University Nanjing 《中国天文和天体物理学报》2005,5(3):265-272
Sympathetic coronal mass ejections (CMEs) usually occur in different active regions connected by interconnecting magnetic loops, while homologous CMEs occur within the same active region with an almost the same background magnetic field, and so are similar in shapes. Two sympathetic CMEs erupted within 3 hours on 2002 May 22, originating from the same active region, AR 9948. Their multi-wavelength data were collected and analyzed. It is suggested that emerging flux triggered the occurrence of the first CME and the corresponding flare, the reconnection inflow of which in turn triggered the eruption of the second CME. Based on the fact that the two sympathetic CMEs have many similarities, in their shapes, their low-lying dimming areas, etc., we tentatively propose, for the first time, the phenomenon of sympathetic homologous CMEs. 相似文献
17.
1 INTRODUCTIONCoronal majss ejections (CMEs) are often seen as spectacular eruptions of matter fromthe Sun which propagate outward through the heliosphere and often interact with the Earth'smagnetosphere (Hundhausen, 1997; Gosling, 1997; and references herein). It is well known thatthese interactions can have substalltial consequences on the geomagnetic environment of theEarth, sometimes resulting in damage to satellites (e.g., McAllister et al., 1996; Berdichevskyet al., 1998). CMEs… 相似文献