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1.
光球物质的水平运动对暗条激活和耀斑爆发的影响 总被引:2,自引:0,他引:2
本文作者用数值方法讨论光球物质水平运动的两种基本模式-剪切运动和会聚运动对活动区背景磁场及暗条电流的影响,并由此分析它们与暗条激活以及耀斑爆发的物理关系,所得结果表明:(1)光球物质的水平运动在激活暗条和驱动耀斑爆发中具有重要的作用;(2)作为耀斑现象先兆之一的暗条激活过程,主要是由暗条电流的增强和背景磁场的演化所决定,这个过程的复杂性导致了耀斑现象物理机制和形态的多样性。 相似文献
2.
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
3.
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
5.
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
6.
本文分析了南京大学太阳塔1991年10月24日用多波段光谱仪观测到的高时间分辨率(5s)的一个2N/X2.1级白光耀斑光谱.对耀斑谱线轮廓、连续发射强度、X射线和射电爆发资料进行了综合对比,分析表明,该耀斑属Ⅰ类白光耀斑,具有如下特征:(1)在白光耀斑的脉冲相期间,各波段光谱线心强度、连续辐射、谱线半宽以及线翼红不对称性与硬X射线高能波段的爆发同时达到极大;(2)H_a谱线在连续发射极大时半宽达10A,且呈现强烈的线心反转,H_β和H_γ线心亦有反转;(3)所拍摄的5条谱线都有明显的红不对称性,持续时间约为1分钟,根据上述结果,本文用电子束轰击、色球蒸发和色球压缩区对该耀斑能量积聚和释放的动力学机制作了定性的分析和解释。 相似文献
7.
江治波 《紫金山天文台台刊》1991,10(2):105-108
1989年11月15日观测到的2B级耀斑,有以下特点:1.耀斑前无暗条:2.发生淹盖了(?)型黑子群;3.耀斑第2亮带是依次发亮的;4.引起射电爆发并使电离层产生三级扰动.但未有与之相应的高能粒子流和X射线暴的记录. 相似文献
8.
本分析了南京大学太阳塔1991年10月24日用多波段光谱仪观测到的高时间分辨率(5s)的一个2N/X2.1级白光耀斑光谱,对耀斑谱线轮廓,连续发射强度,X射线和射电爆发资料进行了综合对比,分析表明,该耀斑属I类白光耀斑,具有如下特征:(1)在白光耀斑的脉冲相期间,各波段光谱线心强度,连续辐射,谱线半宽以及线翼红不对称性与硬X射线高能波段的爆分同时达到极大;(2)Hα谱线在连续发射极大时半宽达10 相似文献
9.
利用多波段联合观测数据,综合分析研究了一个发生于2007年5月23日的日冕物质抛射(Coronal Mass Ejection,CME)爆发事件的起源和初始阶段的物理演化过程.该CME起源于活动区10956内的一个并没有严格地位于活动区极性反转线上的U形活动区暗条,该暗条首先被扰动,然后从中间部分开始缓慢上升.在暗条上升运动过程中,从极紫外和软X射线像上可观测到位于暗条上方的日冕磁环也在不断地上升并且有持续向外的扩张运动.最终,这些冕环和暗条一起爆发并伴随着一个位于暗条断开位置附近的日冕暗化区域的形成.这一爆发过程还伴随着一个静止轨道业务卫星(GeostationaryOperational Environmental Satellites,GOES)软X射线流量级别为B5.3的亚耀斑发生,该光斑显示出与CME之间具有在时间和空间上的紧密联系.与CME的"标准"磁流绳模型一致,这些太阳表面活动可以看作是CME的初始演化阶段在日面上的表现信号,并且该CME的亮前锋可能是由预先存在于暗条上方的冕环体系直接演化而来.另外,文中还讨论了与该事件相关的暗条爆发、耀斑、冕环扩张和消失以及日冕暗化之间的关系. 相似文献
10.
本文收集了1986年2月4日大耀斑的Hα、微波、X射线和γ射线全波段的观测资料。利用暗条电流环模型分析了该耀斑的物理过程,测量了活动暗条的上升运动,求解了动量方程和能量方程。结果表明:(1)1986年2月4日的3B/X3耀斑可能是由暗条电流环之间的合并不稳定性所致;(2)电阻撕裂摸不稳定性是一种有效的耀斑前预热机制;(3)耀斑的高能观测资料进一步表明了电流环合并不稳定性是引起该大耀斑期间所有高能粒 相似文献
11.
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
12.
The MHD stability of force-free, cylindrical arcades is investigated, including the stabilising effect of photospheric line tying. It is found that a wide variety of fields are stable. This suggests that either a departure from a force free equilibrium or suppression of line tying is necessary if a two-ribbon flare is to be triggered. It is postulated that in both circumstances, the existence of an active region filament is an essential preflare requirement for a two-ribbon flare. 相似文献
13.
14.
A three-dimensional coronal magnetic field is reconstructed for the NOAA active region 11158 on 14 February 2011. A GPU-accelerated direct boundary integral equation (DBIE) method is implemented which is approximately 1000 times faster than the original DBIE used on solar non-linear force-free field modeling. Using the SDO/HMI vector magnetogram as the bottom boundary condition, the reconstructed magnetic field lines are compared with the projected EUV loop structures as observed in the front-view (SDO/AIA) and the side-view (STEREO-A/B) images for the first time; they show very good agreement three-dimensionally. A quantitative comparison with some stereoscopically reconstructed coronal loops shows that the average misalignment angles in our model are at the same order as the state-of-the-art results obtained from reconstructed coronal loops. It is found that the observed coronal loop structures can be grouped into a number of closed and open field structures with some central bright coronal loop features around the polarity inversion line. The reconstructed highly sheared magnetic field lines agree very well with the low-lying sigmoidal filament along the polarity inversion line. This central low-lying magnetic field loop system must have played a key role in powering the flare. It should be noted that while a strand-like coronal feature along the polarity inversion line may be related to the filament, one cannot simply interpret all the coronal bright features along the polarity inversion line as manifestation of the filament without any stereoscopic information. 相似文献
15.
Bibhas R. De 《Solar physics》1973,31(2):437-447
A mechanism is suggested for the formation of loop-type prominences in solar-active regions following flare events. The mechanism is based on the already existing idea of compression of a coronal plasma element resulting in enhanced radiation and consequent cooling of the element. A model is suggested for such a compression based on the concept of a contracting, force-free filamentary structure. If the current in a filament increases with time, then there is a radial contraction of the filament. Since the coronal plasma is frozen into the magnetic field lines of the filament, a contraction of the filament causes a compression of the filamentary plasma. This model of compression is shown to be in approximate qualitative and quantitative agreement with observations. 相似文献
16.
《Chinese Astronomy and Astrophysics》1983,7(1):6-11
We evaluated the force-free factor α for 18 well-observed proton flare regions during 1967–1972 according to the degree of twist in their neutral line. We found that, on the day of the flare, α ≥ 0.34 for flares of Class 1 or greater and ≥ 0.50 for Class 2 or greater and that α always increased over the one or two days before the flare. We therefore suggest that α can be used in forecasting proton events. We also outline a squeezing force-free field model of large flares which can better explain certain observed facts. 相似文献
17.
The evolution of coronal and chromospheric structures is examined together with magnetograms for the 1B flare of January 19, 1972. Soft X-ray and EUV studies are based on the OSO-7 data. The H filtergrams and magnetograms came from the Sacramento Peak Observatory. Theoretical force-free magnetic field configurations are compared with structures seen in the soft X-ray, EUV and H images. Until the flare, two prominent spots were connected by a continuous dark filament and their overlying coronal structure underwent an expansion at the sunspot separation rate of 0.1 km s–1. On January 19, the flare occurred as new magnetic fields emerged at 1019 Mx h–1 beneath the filament, which untwisted and erupted as the flare began. The pre-flare coronal emissions remained unchanged during the flare except for the temporary addition of a localized enhancement that started 5 min after flare onset. EUV lines normally emitted in the upper transition region displayed a sudden enhancement coinciding in time and location with a bright H point, which is believed to be near the flare trigger or onset point. The EUV flash and the initial H brightening, both of which occurred near the center of the activated filament, were followed by a second EUV enhancement at the end of the filament. The complete disruption of the filament was accompanied by a third EUV enhancement and a rapid rise in the soft X-ray emission spatially coincident with the disappearing filament. From the change of magnetic field inferred from H filtergrams and from force-free field calculations, the energy available for the flare is estimated at approximately 1031 erg. Apparently, changes in the overlying coronal magnetic field were not required to provide the flare energy. Rather, it is suggested that the flare actually started in the twisted filament where it was compressed by emerging fields. Clearly, the flare started below the corona, and it appears that it derived its energy from the magnetic fields in or near the filament.NCAR is sponsored by NSF. 相似文献
18.
Louise K. Harra 《中国天文和天体物理学报》2006,6(2):247-259
We revisit the Bastille Day flare/CME Event of 2000 July 14, and demonstrate that this flare/CME event is not related to only one single active region (AR). Activation and eruption of a huge transequatorial filament are seen to precede the simultaneous filament eruption and flare in the source active region, NOAA AR 9077, and the full halo-CME in the high corona. Evidence of reconfiguration of large-scale magnetic structures related to the event is illustrated by SOHO EIT and Yohkoh SXT observations, as well as, the reconstructed 3D magnetic lines of force based on the force-free assumption. We suggest that the AR filament in AR9077 was connected to the transequatorial filament. The large-scale magnetic composition related to the transequatorial filament and its sheared magnetic arcade appears to be an essential part of the CME parent magnetic structure. Estimations show that the filament-arcade system has enough magnetic helicity to account for the helicity carried by the related CMEs. In addition, rather global magnetic connectivity, covering almost all the visible range in longitude and a huge span in latitude on the Sun, is implied by the Nancay Radioheliograph (NRH) observations. The analysis of the Bastille Day event suggests that although the triggering of a global CME might take place in an AR, a much larger scale magnetic composition seems to be the source of the ejected magnetic flux, helicity and plasma. The Bastille Day event is the first described example in the literature, in which a transequatorial filament activity appears to play a key role in a global CME. Many tens of halo-CME are found to be associated with transequatorial filaments and their magnetic environment. 相似文献
19.
We have analyzed the variations in shear angle over a time interval of 30 s during a flare on June 11, 1991, using Kodaikanal Observatory spectroheliogram and photoheliogram data, and assuming H filaments are a proxy for the neutral lines. The changes in shear angles have been analysed at two points of the filament. The orientation of the H filament underwent a considerable change of 55° from June 10, 1991 to prior to the start of the flare on June 11, 1991. The photoheliogram on June 10, 1991 shows considerable twisting of the umbrae (in one common penumbra) and broke into parts before the onset of the flare on June 11, 1991. The twisting of umbrae on June 10, 1991 shows that sunspot proper motion plays an important role in bringing a non-potential character to the field lines. This in turn develops shear and kink and it is argued that changes in filament orientation over a small interval of a half minute triggers the eruption of the flare. 相似文献
20.
The formation and eruption of active region filaments is supposed to be caused by the increase of a concentrated current embedded in the active region background magnetic field of an active region according to the theory of Van Tend and Kuperus (1978).The onset of a filament eruption is due to either changes in the background magnetic field or the increase of the filament current intensity. Both processes can be caused by the emergence of new magnetic flux as well as by the motion of the photospheric footpoints of the magnetic field lines. It is shown that if the background field evolves from a potential field to a nearly force-free field the vertical equilibrium of the current filament is not affected, but large forces are generated along the filament axis. This is identified as the cause of filament activation and the increase in filament turbulence during the flare build-up phase. Depending on the evolution of the background field and the current filament, two different scenarios for flare build-up and filament eruption are distinguished.This work was done while one of the authors (M.K.) was participating in the CECAM workshop on Physics of Solar Flares held at Orsay, France, in June 1979. 相似文献