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1.
我们在文[1]里对磁弧剪切作了数值解,得到了剪切速度ω和磁场B_z的分析解,但对二维速度(u,v)的振幅占δ′/ζ仅有只依赖于时间的近似解。本文在密度为常数条件下得到了磁弧剪切在线性演化阶段的较精确的解析解,比较了密度为常数和密度重力分层两种情形下的数值解,证实当β(=气压/磁压)很小(量级为10~(-2))时两者差别不大,因此本文结果近似可用于密度不为常数的实际太阳大气中的磁弧剪切动力学过程。解析解的主要结果是导出振幅δ′/ζ的高度依赖关系:随着时间增加,振幅δ′/ζ随高度下降越来越慢。这导致磁弧顶越升越高而脚根基本上不朝外移动,这样闭合的磁弧将有可能逐渐变为开场。 相似文献
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本文在细长柱位形下数值研究了具有剪切流动的电流片中电阻撕裂模不稳定性的非线性演化。结果表明,电流片附近Sech形式的剪切流动,将导致电阻撕裂模不稳定性的发展,且不稳定性增长率随着剪切参数Rr的增加而增长,导致磁岛的形成和快速的磁能释放。这种剪切流动和撕裂模的耦合过程以及超热不稳定性的相互作用,改变了磁拱中的磁场剪切强度或者说电流密度梯度,从而驱动电阻撕裂模不稳定性的发展,这种过程对于等离子体电流密 相似文献
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024黑子(S.G.D编号为4964)是1988年3月份太阳上最大、磁场最强的黑子群。在日面上出现的半个月里,始终有耀斑产生。北京天文台怀柔太阳磁场望远镜对这个活动区作了常规观测,并获得了磁场和速度场资料。 024活动区是由一个偶极黑子和δ黑子组成的。12日01~h49~mUT,黑子刚从东部出现时就有耀斑和活动日珥产生。从速度场与H_β色球单色像对比来看,耀斑内有物质向里流动,而暗条中有物质向外抛射。024活动区的磁场十分复杂,S极、N极磁场互相包含、渗入、剪切,形成许多海湾结构。可能这就是产生了许多各种形状的耀斑的缘故。本文对磁场的形态作了描述。 相似文献
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为了解释太阳观测中磁流浮现形成活动区的主要特征——AFS弧顶的上升运动和弧脚的下沉运动,谱斑,Ellerman炸弹等,我们采用了MHD-Lagrangian数值模拟法计算了重力分层(压力密度指数递减),太阳大气中同基底磁场反向和同向的磁偶极子从光球下浮出时产生的动力学演化过程.计算证明:反向的偶极子会导致流体产生会聚和下降运动,为了能让反向偶极子浮出必须适当增压,演化的结果形成电流片,因而有可能引起如Ellerman炸弹等小型爆发现象.还证明了:在浮现处一定产生加热增温,即导致谱斑发亮现象.在弧顶气体是上升运动,速度小;弧脚处气体作下降运动,速度较大,这主要是重力分层气体压力密度非均匀引起的,和Brunt-Vaisala振动有同一的起因.我们还模拟了通常活动区形成时的初期现象:1500高斯强磁偶极子浮进100高斯的弱光球色球基底场时产生的动力学现象.计算表明:为了不致产生激波必须减压浮出,即类似于黑子降温式的浮现,浮现时间应是小时的量级,浮现后确实在色球里导致强的电流片,当这电流片升至低日冕后,会成为Heyvaerts,Priest等人期望的耀斑发生源,因而浮现过程有可能是耀斑储能和触发机理之一.另外我们利用计算结果试解释了北京天文台怀柔站的磁流浮现资料,即文[1]和文[2]的一些分析结果。 相似文献
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本文归纳了物质喷射流日冕瞬变的观测特性,求解二维不定常气体动力学方程组,对于一类典型的流场求出了相似解,这类相似解的流动特征和热力学参数的剖面定性地与物质喷射流日冕瞬变的观测特征相吻合。最后还讨论了稠密等离子体喷射人不同磁场位形时所给出的不同瞬变形态。并用以解释日冕瞬变的分类特征。 相似文献
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王家龙 G.J.Nelson N.R.Sheeley Jr. R.A.Howard M.J.Koomen D.J.Michels K.Kawabata H.Ogawa 《中国天文和天体物理学报》1989,(3)
本文比较了1982年2月9日同时观测到的两个爆发日珥及一次白光日冕物质抛射事件。比较表明,在研究日冕物质抛射事件与爆发日珥的关系时,爆发日珥的形状可能是一个重要的因素,它体现了局部区域磁场结构的变化。作者提出了一种可能的磁场结构模型,对观测结果给以解释。 相似文献
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1990年8月29日在太阳东边缘(E90;S12,NOAA/USAF6241)爆发了一个龙卷日珥,本文对这个龙卷日珥进行了详细的形态分析和光谱诊断,结果表明:(1)龙卷日珥有规则地螺旋运动上升,上升到最大高度后,日珥内物质无规则地纷纷下坠,这种螺旋运动可能是带电粒子漂移运动产生的电场与日珥内冻结磁场相互作用的结果;(2)龙卷日珥形态快速变化,最后呈规则的环状结构;(3)龙卷日珥的形态可能是一个重要的因素,它体现了局部区域磁场结构的变化。本文提出了一种可能的磁场结构模型,对观测结果给予了较好的解释。 相似文献
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1989年1月14日AR5312(怀柔编号89009)活动区,产生了一个2B级耀斑。该活动区经纬度为L306、S32,黑子群磁场分类为δ型。耀斑开始时间为0202UT,结束为0534UT,持续了3个多小时。北京天文台磁场望远镜,得到了一系列较完整的高分辨磁场及速度场资料,包括光球5324A的矢量磁场图和色球4861A的纵向磁场图(图1、2)。从耀斑前后的磁图得到以下结果: 1、耀斑初始亮点位于纵向磁场中性线附近高度剪切区域(见图1B区)、新浮磁流区(图2D区)以及双极磁结构对消区。前两种区域均能形成电流片,并且引起磁流体不稳定性,从而激发耀斑,但对消区和耀斑的关系不是很清楚,有待于理论工作者进一步探讨。 2、耀斑极大时间过后,光球和色球H_(11)=0线附近纵场梯度均有明显下降。 3、在强剪切区域(图1B区),5324A横向磁场和H_(11)=0线之间的夹角在耀斑极大时间过后有明显增大,该现象表明磁能释放后,磁场剪切缓解。 4、耀斑初始亮点产生后磁场高度剪切区、新浮磁流区和双极对消区,其触发耀斑的作用和周围的磁场环境有密切关系,特别是象具有磁海湾结构这样的活动区,似乎更容易产生耀斑。 5. 该活动区色球磁场位形,较光球磁场位形复杂,主要表现在:色球的纵场出现了一些磁弧岛结构,其原因可能是光球之上的磁力线高度剪切区及扭绞所致。0411 相似文献
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Arch systems lying above quiescent prominences in the solar corona have long drawn the attention of eclipse observers, and such formations have been investigated since the end of the last century. Almost every eclipse photograph shows one or more arches, and in most cases the arch system is accompanied by a quiescent prominence below it and a helmet streamer above it. Also, in some cases there is a dark cavity between the arch system and the prominence.On large-scale photographs obtained at the November 12, 1966 eclipse, detailed photometry has been carried out on a formation in the corona composed of a helmet streamer straddling two multiple-arch systems each with a dark cavity and a quiescent prominence. The excess of electrons in the arches and the deficiency in the cavities are evaluated. We find that the formation of a prominence requires much more material than available in the cavity before depletion. Consequently the condensation theory of coronal matter into prominences seems to have difficulties explaining the necessary amount of matter in the cases where coronal arches - delineating magnetic field lines above the cavity - may exclude inflow of material from the corona. We comment on the low velocity of solar wind in the helmet streamer.The National Center for Atmospheric Research is sponsored by the National Science Foundation. 相似文献
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Y. Nakagawa 《Solar physics》1970,12(3):419-437
A comprehensive examination of the stability of prominences is presented, and the gross behavior of prominences is considered
in terms of the stability of an optically thin plasma supported by a magnetic field against gravity, including thermal effects
on the energy balance. It is shown that (1) hydromagnetic as well as hydrodynamic waves of short wavelengths could induce
instability which leads to the formation of prominences, and (2) in quiescent prominences, the dominant factor which controls
the instability is the shear between the permeated and the supporting magnetic fields. The dependence of these instabilities
on the radiative loss and other hydromagnetic effects are discussed.
The National Center for Atmospheric Research is sponsored by the National Science Foundation. 相似文献
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The equilibrium structure of normal-polarity, quiescent prominences is investigated and the influence of magnetic shear in response to a slow, shearing, photospheric velocity discussed. The results show that the overall field structure predicted by Fiedler and Hood (1992) is largely unaffected but that magnetic shear reduces the plasma beta and lengthens and flattens the magnetic field when viewed from the side. The flatness of the field suggests that the initial condensation can form and, when the mass is sufficient, deform the field slightly into the equilibrium structure calculated here. Thus, it is postulated that the field must be highly sheared for the radiation (or condensation) time to be less than the free-fall time along the field. A simple estimate predicts that the field must lie close to the polarity inversion line with an angle in agreement with observations. Hence, it is apparent that normal polarity prominences will always be observed with a highly sheared field.It is shown that the line-of-sight field component depends on the imposed shear profile and the viewing angle and in certain cases it is possible for this field component to appear to increase with height. Any observed increase of the line-of-sight magnetic field with height may then be due to the angle of the prominence to the line of sight. 相似文献
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Eberhart Jensen 《Solar physics》1983,89(2):275-285
In the dynamical model of quiescent prominences presented in this paper, it is assumed that the ever-changing velocity field and brightness of the fine structure is due to MHD turbulence driven by an Alfvén-wave flux from below. It is shown that these waves become highly non-linear and are dissipated over relatively short scales in prominence matter. For magnetic field strengths lower than those observed in quiescent prominences, no closed arch structure can exist with the physical parameters observed. For higher field strengths the conditions for the creation of turbulence are not fulfilled. The momentum gained by prominence matter in the dissipation process, is shown to be of the right order of magnitude to provide the supporting force against gravity. ‘Edge’ effects find a simple explanation within the framework of this hypothesis. In the upper regions of a prominence one result of the dissipation may be the formation of open magnetic configurations, in keeping with the presence of streamers connected with quiescent prominences. Observational tests are proposed and discussed. 相似文献
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Max Kuperus 《Solar physics》1996,169(2):349-356
A model is presented for the origin of inverse polarity magnetic fields in the perpendicular as well as in the axial direction of quiescent prominences. The model is based on the presence of a discrete coronal arcade structure where magnetic separating surfaces can be identified. On the crossing of these separating surfaces magnetic reconnection driven by photospheric shear and converging motions can create the observed field direction in quiescent prominences.Dedicated to Cornelis de Jager 相似文献
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This paper offers an evolution scenario for a simple magnetic arcade where the frozen-in magnetic field decreases with the ascent of its arches together with the plasma. Uplift is produced by the movement of photospheric plasma with a frozen-in magnetic field, which is divergent with respect to a neutral line. A decrease in magnetic field leads to the appearance in the arcade of a height range of arches, with no high-temperature thermal equilibrium present, and to a variation of the nonequilibrium range with time. Uplift of the arcade is accompanied by the consecutive entry of new arches into this range. All arches entering the nonequilibrium range experience a transient process. Some of the earlier inquiries into the physics of this process were instrumental, in the first place, in identifying those arches which – through the production of an ascending plasma flow from the base of the arcade – are involved in the formation of a prominence (with magnetic dips appearing and evolving at the tops of these arches) and, secondly, in synthesizing a computational algorithm for the final state of the transient process, the quasi-steady-state dynamic structure of the prominence. The arcade evolution scenario, combined with the computational algorithm, constitutes a unified prominence model, a model for the transition from a simple static magnetic arcade to a quasi-steady dynamic prominence structure. The model has been used in numerical calculations of parameters of two classes of prominences: in and outside active regions. Results of the calculations are in good agreement with observations. 相似文献
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It is argued that the quiscent prominences are a natural consequence of the formation and thermal instability of current sheets in the corona. Thus observation and theory of prominences can give vital information on the presence of currents and the topology of magnetic fields in the corona. Conversely by developing the theory of the structure and evolution of current sheets under coronal conditions we can attempt to gain a comprehensive understanding of the structure, evolution, and mass and energy balance of quiescent prominences. A stability analysis for coronal material permeated by a vertical magnetic field rooted in the photosphere, indicates that a condensation will take the form of a thin vertical wedge of cool matter. The development of a finite condensation is followed and it is shown that photospheric line tying is only important in the initial stages. A perturbation analysis of vertical motions at the neutral sheet shows that thermal instability can lead to overstable oscillations. Cooling of coronal material can lead to both upward and downward mass motions, and gravitational energy release is important to the thermal balance of prominences. Relevant optical and radio observations are discussed. Synoptic observations of the development of active regions and magnetic fields are needed to test the basic hypothesis of the formation of prominences from neutral sheets. 相似文献
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A numerical simulation is performed to investigate the prominence formation in a magnetic arcade by photospheric shearing motions. A two-and-a-half-dimensional magnetohydrodynamic (MHD) code is used, in which the gravitational force, radiative cooling, thermal conduction and a simplified form of coronal heating are included. It is found that a footpoint shear induces an expansion of the magnetic arcade and cooling of the plasma in it. Simultaneously the denser material from the lower part of the arcade is pulled up by the expanding field lines. A local enhancement of radiative cooling is thus effected, which leads to the onset of thermal instability and the condensation of coronal plasma. The condensed material grows vertically to form a sheet-like structure making dips on field lines, leading to the formation of the Kippenhahn- Schlüter type prominence. The mass of the prominence is found to be supplied not only by the condensation of the material in the vicinity but also by the siphon-type upflows. The upward growth of the vertical sheet-structure of the prominence is saturated at a certain stage and the newly condensed material is found to slide down from above the prominence along magnetic field lines. This drainage of material leads to the formation of an arc-shaped cavity of low density and low pressure around the prominence. The problem of force and heat balance is addressed and the prominence is found to be not in a static equilibrium but in a dynamic interaction with its environment. 相似文献
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In this paper we investigate the effects of condensation and thermal conduction on the formation of Kippenhahn-Schlüter (K-S) type prominences in quiet regions (QP) due to symmetric mass injection. To implement this investigation, a self-consistent, two-dimensional, non-planar, time-dependent magneto-hydrodynamic (MHD) simulation model is developed. In the model, we use various values of the injection velocity, density, and magnetic field strength to determine the most favorable conditions for the QP formation. Based on these simulation results, we find that the formation of a K-S-type field configuration should be considered as a dynamic process, which needs both condensation and mass injection to supply enough mass to maintain such a configuration to complete the formation process of quiescent prominence. 相似文献
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A model of ‘disparitions brusques’ (sudden disappearence of eruptive prominences) is discussed based on the Kippenhahn ans Schlüter configuration. It is shown that Kippenhahn and Schlüter's current sheet is very weakly unstable against magnetic reconnecting modes during the lifetime of quiescent prominences. Disturbances in the form of fast magnetosonic waves originating from nearby active regions or the changes of whole magnetic configuration due to newly emerged magnetic flux may trigger a rapid growing instability associated with magnetic field reconnection. This instability gives rise to disruptions of quiescent prominences and also generates high energy particles. 相似文献