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1.
在太阳耀斑区磁场和电流研究方面,文中将着重介绍太阳横向磁场方位的确定,太阳活动区磁场的非热性表示、太阳耀斑前后的活动区磁场变化、以及耀斑核块与活动区纵向电流密度极大点位置的关系等几个重要问题的研究现状。 相似文献
2.
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
3.
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
4.
根据Marshall空间飞行中心(MSFC)太阳天文台的矢量磁场测量和云南天文台的黑子细节照相资料,作者们详细研究了1986年2月初太阳大活动区(AR4711)的形态和演化。主要结论如下: i)几乎在活动区中每处地方,相距五小时观测到横向磁场排列方向和黑子半影纤维形态之间存在良好的相似性。 ii)利用文[4]的方法,推断了本活动区强的垂直电流源和强的水平电流渠道。 iii)与1972年8月初著名的太阳活动区(McMath 11976)相类似,沿老活动区的中性线的新浮磁通管的两足点(偶极黑子)的分离运动导致了一个密集四极磁结构的形成。 iv)新浮磁通管似乎是本活动区最强的电流系统。 上述结论将为进一步研究本区电流/磁场环系的演化及其与耀斑活动的关系提供一个基础数据。 相似文献
5.
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
6.
本文利用紫金山天文台太阳光谱仪缝前附属Daystar滤光器拍摄的,发生在NOAA5395活动区中的三个耀斑的Hα单色光资料,对比北京天文台怀柔观测站取得的光球磁场资料,研究耀斑产生位置与光球磁场演化的关系,结果表明:(1)在所研究的50个耀斑亮核中,有38个位于新浮磁流区附近,另有少数亮核出现在磁对消区;(2)耀斑亮核多集中在横场方向交叉,剪切角大的复杂磁区,耀斑后多数区域磁场结构简化;(3)耀斑 相似文献
7.
集中分析了几个具有螺旋结构的爆发日珥的观测资料,用相同的理论框架,讨论它们内部电流分布的演化特征,以及与活动区背景磁场相互作用的动力学性质;并探讨日珥爆发时的磁能转化机制。结果表明:(i)爆发日珥内部的磁场和电流分布具有无力性质;(ii)利用Kuperus-Raadu日珥模型可以较好地日珥电流和背景磁场相互作用的基本特征;(iii)日珥等离子体的宏观kink不稳定性可能是日珥磁能转化的主要机制。理 相似文献
8.
AR6659是22周以来最重要的一个活动区,它爆发了22周最强大的高能事件。本文用云南天文台的光球、色球精细结构照片和北京天文台怀柔站的磁场速度场资料,分析了该活动区磁场速度场的二维位形和大耀斑期间的演化特征。本文分析的4个大耀斑均爆发在中性线附近的N极区磁场梯度大的地方及色球速度场的红移区。偏带观测也显示耀斑物质是向红端移动的。耀斑波沿横场传播在离本黑子群几万至十几万公里的地方激起感生耀斑,在原生耀斑与感生耀斑之间往往有耀斑环相连。此外,本文还从演化特征出发分析了耀斑爆发前活动区等离子体的宏观不稳定性。 相似文献
9.
本文分析了云台78126活动区的五天的磁场等高斯图资料后得出,倒置的磁极性排列和纵场中性线变得迂回曲折与高能质子耀斑爆发紧密相关。在耀斑爆发后,无论是磁极性排列和纵场中性线都趋于相对稳定状态。我们发现,活动区的净磁通量φ在4月28—30日期间有急剧的变化,而在这期间发生了二个重大耀斑。我们猜想,可能是磁通量的迅速变化引起的强大电动势造成了电子和质子加速的条件。分析了耀斑结点在磁图中的分布后得出;本活动区的耀斑亮点大多数离中性线区域较远,而出现在中性线附近的亮结点,可以大致分为两种情形,一种是在中性线两侧的磁场梯度很大且具有相反电流密度的区域;另一种是出现在磁场的“中性点”附近。 相似文献
10.
利用SDO (Solar Dynamics Observatory)/HMI (Helioseismic and Magnetic Imager)观测到的矢量磁图,研究了与活动区AR12673上爆发的一个X9.3级耀斑(2017年9月6日)的相关电流分布和演化.结果显示,在该活动区的磁中性线两边存在一对方向相反的电流密度约为0.4 A/m~2的长电流带,可称其为一对共轭电流带.这对共轭电流带在耀斑发生之前、期间以及之后一直存在;并且观测到,该耀斑的两个亮带的位置几乎刚好与两个电流带重叠,它们的形状也极其相似. 9月6日电流总强度演化曲线表明,电流强度在X9.3级强耀斑爆发期间出现快速增加的现象,这种现象持续了几个小时.这一研究结果有力支持了磁准分界面(Quasi-Separatrix Layer, QSL) 3维重联模型. 相似文献
11.
The energy source of a flare is the magnetic field in the corona. A topological model of the magnetic field is used here for interpreting the recently discovered drastic changes in magnetic field associated with solar flares. The following observational results are self‐consistently explained: (1) the transverse field strength decreases at outer part of active regions and increases significantly in their centers; (2) the center‐of‐mass positions of opposite magnetic polarities converge towards the magnetic neutral line just after flares onset; (3) the magnetic flux of active regions decreases steadily during the course of flares. For X‐class flares, almost 50% events show such changes. (© 2008 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
12.
Ayumi Asai Takaaki Yokoyama Masumi Shimojo Satoshi Masuda Kazunari Shibata 《Journal of Astrophysics and Astronomy》2006,27(2-3):167-173
We report a detailed examination about the relationship between the evolution of the Hα flare ribbons and the released magnetic
energy during the April 10 2001 flare. In the Hα images, several bright kernels are observed in the flare ribbons. We identified
the conjugated foot-points, by analyzing the lightcurves at each Hα kernels, and showed their connectivities during the flare.
Then, based on the magnetic reconnection model, we calculated quantitatively the released energy by using the photospheric
magnetic field strengths and separation speeds of the Hα flare ribbons. Finally, we examined the downward motions which are
observed at the Hα kernels. We found that the stronger the red-asymmetry tends to be associated with the brighter the Hα kernel. 相似文献
13.
Tuan-Hui Zhou Hai-Sheng Ji 《中国天文和天体物理学报》2009,9(3)
We give an extensive multi-wavelength analysis of an eruptive M1.0/1N class solar flare, which occurred in the active region NOAA 10044 on 2002 July 26. Our empha-sis is on the relationship between magnetic shear and flare shear. Flare shear is defined as the angle formed between the line connecting the centroids of the two ribbons of the flare and the line perpendicular to the magnetic neutral line. The magnetic shear is computed from vector magnetograms observed at Big Bear Solar Observatory (BBSO), while the flare shear is computed from Transition Region and Coronal Explorer (TRACE) 1700A images. By a detailed comparison, we find that: 1) The magnetic shear and the flare shear of this event are basically consistent, as judged from the directions of the transverse mag-netic field and the line connecting the two ribbons' centroids. 2) During the period of the enhancement of magnetic shear, flare shear had a fast increase followed by a fluctuated decrease. 3) When the magnetic shear stopped its enhancement, the fluctuated decreasing behavior of the flare shear became very smooth. 4) Hard X-ray (HXR) spikes are well correlated with the unshearing peaks on the time profile of the rate of change of the flare shear. We give a discussion of the above phenomena. 相似文献
14.
Hongqi Zhang 《Monthly notices of the Royal Astronomical Society》2002,332(2):500-512
In this paper we analyse the non-potential magnetic field and the relationship with current (helicity) in the active region NOAA 9077 in 2000 July, using photospheric vector magnetograms obtained at different solar observatories and also coronal extreme-ultraviolet 171-Å images from the TRACE satellite.
We note that the shear and squeeze of magnetic field are two important indices for some flare-producing regions and can be confirmed by a sequence of photospheric vector magnetograms and EUV 171-Å features in the solar active region NOAA 9077. Evidence on the release of magnetic field near the photospheric magnetic neutral line is provided by the change of magnetic shear, electric current and current helicity in the lower solar atmosphere. It is found that the 'Bastille Day' 3B/5.7X flare on 2000 July 14 was triggered by the interaction of the different magnetic loop systems, which is relevant to the ejection of helical magnetic field from the lower solar atmosphere. The eruption of the large-scale coronal magnetic field occurs later than the decay of the highly sheared photospheric magnetic field and also current in the active region. 相似文献
We note that the shear and squeeze of magnetic field are two important indices for some flare-producing regions and can be confirmed by a sequence of photospheric vector magnetograms and EUV 171-Å features in the solar active region NOAA 9077. Evidence on the release of magnetic field near the photospheric magnetic neutral line is provided by the change of magnetic shear, electric current and current helicity in the lower solar atmosphere. It is found that the 'Bastille Day' 3B/5.7X flare on 2000 July 14 was triggered by the interaction of the different magnetic loop systems, which is relevant to the ejection of helical magnetic field from the lower solar atmosphere. The eruption of the large-scale coronal magnetic field occurs later than the decay of the highly sheared photospheric magnetic field and also current in the active region. 相似文献
15.
The high-resolution vector magnetograms obtained with the solar telescope magnetograph of the Beijing Astronomical Observatory of the active region AR 4862 on 7 October, 1987, close before and after a solar flare, were used to calculate the electric current densities in the region. Then the relations between the flare and the magnetic fields as well as the electric currents were studied. The results are: (i) the transverse magnetic fields, and hence the longitudinal electric currents in the region before and after the flare, are evidently different, while the longitudinal magnetic fields remain unchanged; (ii) this confirms the result obtained previously that the flare kernels coincide with the peaks of longitudinal electric density in active regions; (iii) the close relation between the flare kernels and the electric currents indicates that the variations of the transverse magnetic fields and the longitudinal electric currents arise not from the general global evolution of the active region, but from the flare. These results tend to the conclusion that the triggering of a solar flare might be related with the plasma instability caused by the surplus longitudinal electric currents at some local regions in the solar atmosphere. 相似文献
16.
We study the magnetic structure of five well-known active regions that produced great flares (X5 or larger). The six flares under investigation are the X12 flare on 1991 June 9 in AR 6659, the X5.7 flare on 2000 July 14 in AR 9077, the X5.6 flare on 2001 April 6 in AR 9415, the X5.3 flare on 2001 August 25 in AR 9591, the X17 flare on 2003 October 28 and the X10 flare on 2003 October 29, both in AR 10486. The last five events had corresponding LASCO observations and were all associated with Halo CMEs. We analyzed vector magne-tograms from Big Bear Solar Observatory, Huairou Solar Observing Station, Marshall Space Right Center and Mees Solar Observatory. In particular, we studied the magnetic gradient derived from line-of-sight magnetograms and magnetic shear derived from vector magne-tograms, and found an apparent correlation between these two parameters at a level of about 90%. We found that the magnetic gradient could be a better proxy than the shear for predicting where a major flare might occur: all six flares occurred in neutral lines with maximum gradient. The mean gradient of the flaring neutral lines ranges from 0.14 to 0.50 G km-1, 2.3 to 8 times the average value for all the neutral lines in the active regions. If we use magnetic shear as the proxy, the flaring neutral line in at least one, possibly two, of the six events would be mis-identified. 相似文献
17.
1 INTRODUCTIONRecently Bao, Zhang, Ai, and Zhang (1999), using Huairou vector magnetograph data,have shown that the average current helicity (h.) or the curreflt helicity imbalance ph of activeregions change rapidly after so1ar flares. Up'an the onset of flares it tends to decrease for a fewhours and then to increase again, whereas ifQ some cases the flare promotes an increase in thecurrent helicity The observations led to tbe fol1owing conclusions: (1) raPid and substantialchanges of c… 相似文献
18.
We compare large-scale filtergrams of a hitherto neglected class 1B flare with previously published vector magnetograms and maps of photospheric longitudinal electric current density (Hagyard et al., 1985). The vector magnetic fields were mapped simultaneously with the eruption of this flare. We find a coincidence, to within the ±2″ registration accuracy of the data, between the flare kernels and the locations of maximum shear and of peak values in the longitudinal electric current density. The kernels brighten in a way which implies that the preflare heating and the main release of flare energy are spatially coincident within the limits of resolution (≈2″). A pronounced magnetic shear exists in the vertical direction at the location of the strongest flare kernels. We provide evidence that the electric currents could be maintained by the energy stored in the sheared transverse magnetic field and that the amount of energy released is proportional to the amount stored. These circumstances are consistent with theories in which flares are triggered by plasma instabilities due to surplus electric currents. 相似文献
19.
Hongqi Zhang 《Journal of Astrophysics and Astronomy》2006,27(2-3):305-314
The electric current separated into two parts reflected the quantative properties of heterogeneity and chirality of magnetic
field, and defined them as the shear and twist components of current. We analyze the basic configuration and evolution of
superactive region NOAA 6580-6619-6659.
It is found that the contribution of the twist component of current cannot be reflected in the normal analysis of the magnetic
shear and gradient of the active regions. The observational evidence of kink magnetic ropes generated from the subatmosphere
cannot be found completely in some super delta active regions. 相似文献
20.
Observational data on the Ni I 6768 Å line profile variations during the impulsive and post-impulsive phases of the July 18, 2002 while light flare (WLF) in the kernel of WLF emission and in other flare kernels are presented. The line profiles at the sites of intense photospheric motions in active regions are also studied. The effect of the observed Ni I 6768 Å line profile variations on the SOHO/MDI magnetic field measurements is estimated. The following conclusions have been reached. (1) The thermodynamic structure of the photo-spheric layers changes significantly during the flare. As a result, the Ni I line profile changes, particularly at the site of WLF emission. At this time, the line depth decreases significantly, but the line does not show any emission reversal. Subsequently, a relatively slow return to the conditions of an undisturbed photosphere is observed. (2) The technique of SOHO/MDI magnetic field measurements is insensitive to such line variations. Therefore, the detected variations during the flare did not result in any noticeable errors in the MDI longitudinal magnetic field measurements. (3) The line profile is broadened, shifted as a whole, and asymmetric at the sites of active regions where intense photospheric motions appear. In the MDI measurements, such changes in the profile lead to an underestimation of the magnetic field by approximately 10% if the line-of-sight velocity of the photo-spheric ejection is about 1.6 km s?1. 相似文献