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1.
本文给出了1989 年8 月17 日耀斑后环的观测视向速度场,在环内物质在太阳重力、磁场梯度和大气压力梯度联合作用下沿环腿螺旋上升和环内物质密度由环腿向环顶和环足线性递增的假设下,理论上计算了该环系的视向速度场,理论计算和观测结果基本相符,似乎为耀斑物质由色球蒸发作上升运动的观点提供了间接的例证 相似文献
2.
本文利用云南天文台二维光谱仪观测的1989年8月17日耀斑的Hβ波段光谱资料,采用多云模型的方法,得到此耀斑的观测视向速度分布,并在一定的简化和假设下,采用MHD理论计算了几种情况下耀斑环内物质运动的视向速度分布,与观测的视向速度分布加以比较,研究和探讨耀斑环中的物质运动情况。通过分析比较,得出此耀斑环内物质运动可能属于下述两种模式:物质从环顶沿两环腿螺旋下落和物质从环足沿一环腿螺旋上升到环顶后沿另一腿螺旋下落 相似文献
3.
利用“多云模型”方法,从云南天文台二维多波段太阳光谱仪观测到的Hβ光谱资料中导出1989年8月17日太阳西边缘的一个大的耀斑环系不同时间的视向速度场.为了解释观测速度场的主要特征,本文采用如下假设和近似:环内物质在太阳重力、磁场应力和环内气压梯度力联合作用下由环足沿螺旋磁力线上升运动.应用MHD理论计算了它的理论速度场.通过两者的比较发现,计算出的速度场与第一时段的观测速度场基本相似,这似乎对耀斑物质蒸发模型提供了支持. 相似文献
4.
通过1991年6月6日一个复杂的太阳活动事件(包括宽带射电运动Ⅳ型爆发、脉冲相伴生的白光耀斑、耀斑后环及其伴生的射电多重短周期(约1-4劝现象等)的分析,探讨了白光耀斑产生的射电辐射特征,根据太阳白光耀斑和射电运动Ⅳ型爆发产生的物理过程,着重讨论了射电运动Ⅳ型爆发、耀斑后环和短周期脉动现象,并认为它们可能是白光耀斑的对应物。 相似文献
5.
通过1991 年6 月6 日一个复杂的太阳活动事件( 包括宽带射电运动Ⅳ型爆发、脉冲相伴生的白光耀斑、耀斑后环及其伴生的射电多重短周期( 约1 - 4 秒) 脉动现象等) 的分析,探讨了白光耀斑产生的射电辐射特征,根据太阳白光耀斑和射电运动Ⅳ型爆发产生的物理过程,着重讨论了射电运动Ⅳ型爆发、耀斑后环和短周期脉动现象,并认为它们可能是白光耀斑的对应物 相似文献
6.
本文云南天文台二维光谱仪观测的1989年8月17日耀斑的Hβ波 段光谱资料,采用多云模型的方法,得到此耀斑的观测视向速度分布,并在一定的简化和假设下,采用MHD理论计算了几种情况下光耀斑环内物质运动的视向速度分布,与观测的视向速度分布加以比较,研究和探讨耀斑环中的物质运动情况。 相似文献
7.
利用“多云模型”方法,从云南天台二维多波段太阳光谱仪观测到的Hβ光谱资料中导出1989年8月17日态阳西边缘的一个大的耀斑环系不同时间的视向速度场,为了解释观测速度场的主要特征,本采用如下假设和近似:环内物质在太阳重力、磁场应力和环内气压樟率力联合作用下由环足沿螺旋磁力线上升运动,应用MHD理论计算了它的理论经速度场,通过两的比较发现,计算出的速度场与第一时段的观测速度场基本相似,这似乎对耀 相似文献
8.
通过1991年6月6日共生太阳白光耀斑(WLF)的射电运动IV型发及其伴随现象(包括耀斑后环、爆发衰减相的射电脉动、多波段电辐身和太阳物质抛射等)瓣分析,定笥地探讨了WLF的起源、加热机制和发射地点的问题,假设了WLF和射电运动IV型射电爆发可能有共同起源的低日晚电子加速区,讨论了WLF的能量传输可能是通过二步加速过程,即来自低日冕的非热降能量于色球层,产生色球层的压缩波或向下的辐身场进而使上光球 相似文献
9.
本文对云南天文台1981年5月16日3B级双带大耀斑环(0922UT)的H_α—SSHG光谱资料作了初步的数据处理。采用非线性函数的最小二乘曲线拟合方法,从光谱轮廓求得圆面耀斑环的线心光学厚度τ_0、Doppler宽度Δλ_D平均能源函数S_λ及视向速度V_(11)的二维分布,为处理具有时空序列的光谱资料提供了一种数值方法。计算结果表明,耀斑环系内的物质由环顶沿两环腿向色球层溅落;用色球蒸发模型解释环中的物质来源较为合理。 相似文献
10.
1989年8月17日耀斑环的视向速度场 总被引:2,自引:1,他引:1
“多云模型”是处理太阳活动体光变谱不对称轮廓的有效方法,本给出了该方法的一个具体应用实例,利用云南天台二维多波段太阳光谱仪观测的1989年8月17日耀斑Hβ波段光谱资料,得到了该耀斑环的视向速度场。 相似文献
11.
Speeds of rising post-flare structures 总被引:1,自引:0,他引:1
Zdeněk Švestka 《Solar physics》1996,169(2):403-413
There are basically two kinds of post-flare coronal structures: those rising with decreasing speed, and others which rise with constant speed for a long period of time. As a rule, those structures with decreasing speed are post-flare loop systems, while those rising with constant speed are postflare giant arches. However, there are exceptions. We demonstrate several cases of post-flare loop systems which rise with constant speed for many hours, three of them observed by Yohkoh. These observations imply that the Kopp and Pneuman interpretation of post-flare loops as sequentially reconnecting open field lines cannot be generally valid. The most likely interpretation is that all post-flare loop systems start with the Kopp and Pneuman process, but in some of them later-formed loops begin to be continuously heated; thus they cease to cool and begin to expand into the corona. This kind of post-flare loops might represent an intermediate stage between the ordinary post-flare loops and post-flare giant arches.Dedicated to Cornelis de Jager 相似文献
12.
A. K. Srivastava T. V. Zaqarashvili W. Uddin B. N. Dwivedi Pankaj Kumar † 《Monthly notices of the Royal Astronomical Society》2008,388(4):1899-1903
Using simultaneous high spatial (1.3 arcsec) and temporal (5 and 10 s) resolution Hα observations from the 15 cm Solar Tower Telescope at Aryabhatta Research Institute of Observational Sciences (ARIES), we study the oscillations in the relative intensity to explore the possibility of sausage oscillations in the chromospheric cool post-flare loop. We use the standard wavelet tool, and find the oscillation period of ≈587 s near the loop apex, and ≈349 s near the footpoint. We suggest that the oscillations represent the fundamental and the first harmonics of the fast-sausage waves in the cool post-flare loop. Based on the period ratio P 1 / P 2 ∼1.68 , we estimate the density scaleheight in the loop as ∼17 Mm. This value is much higher than the equilibrium scaleheight corresponding to Hα temperature, which probably indicates that the cool post-flare loop is not in hydrostatic equilibrium. Seismologically estimated Alfvén speed outside the loop is ∼300–330 km s−1 . The observation of multiple oscillations may play a crucial role in understanding the dynamics of lower solar atmosphere, complementing such oscillations already reported in the upper solar atmosphere (e.g. hot flaring loops). 相似文献
13.
V. B. Yurchisin 《Solar physics》1994,154(1):199-202
Observations of the reconnection process between two magnetic fluxes are presented. The lower reconnecting flux seemed to be a rising post-flare loop system, the upper one a giant magnetic loop of the active region. The interaction produced a giant arch visible in the H line center. 相似文献
14.
We analyze spectra taken with the 40 cm coronograph at Sacramento Peak Observatory, for evidence of Stark effect on Balmer lines formed in coronal magnetic structures. Several spectra taken near the apex of a bright post-flare loop prominence show significant broadening from H10 to the limit of Balmer line visibility in these spectra, at about H20 The most likely interpretation of the increasing width is Stark broadening, although unresolved blends of Balmer emissions with metallic lines could also contribute to the trend. Less significant broadening is seen in 3 other post-flare loops, and the data from 5 other active coronal condensations observed in this study show no broadening tendency at all, over this range of Balmer number. The trend clearly observed in one post-flare loop requires an ion density of n i ? 2 × 1012 cm?3, if it is to be explained entirely as Stark effect caused by pressure broadening. But mean electron densities measured directly from the Thomson scattering at λ3875 in the same SPO spectra, yield n e ? 3?7 × 1010 cm?3 for the same condensations observed within that loop. Comparison of this evidence from electron scattering, with densities derived from emission measures and line-intensity ratios, argues against a volume filling factor small enough to reconcile the values of n i and n e derived in this study. This discrepancy leads us to suggest that the Stark effect observed in these loops, and possibly also in flares, could be caused by macroscopic electric fields, rather than by pressure broadening. The electric field required to explain the Stark broadening in the brightest post-flare loop observed here is approximately 170 V cm?1. We suggest an origin for such an electric field and discuss its implications for coronal plasma dynamics. 相似文献
15.
We analyze X-ray images and spectra of a coronal structure which extended to altitudes over 130 000 km above an eruptive flare located 20° behind the western solar limb. The images were obtained by the Flat Crystal Spectrometer (FCS) and the spectra were obtained by the Bent Crystal Spectrometer (BCS) aboard the SMM spacecraft. Images in Oviii and Mgxi lines cover the period from before the flare onset (which occurred at 22:31 UT on 16 February, 1986) through 17 UT on 17 February and were used for determination of temperature and emission measure within the structure. BCS obtained Caxix spectra of the coronal event, benefiting from the occultation of the active region behind the solar limb.The BCS data show, and FCS data confirm, that the temperature, after an initial rise and decline, stayed almost constant for many hours after 04:30 UT on 17 February. This may indicate that initially we observed the rise and decay of post-flare loops, but later the X-ray emission came predominantly from a post-flare giant arch that formed above them. This has been observed in many previous cases. However, a comparison with other events characterized by very high post-flare loops, such as those that occurred on 29 July, 1973 (Skylab data) and on 14 February, 1986 (from this same region), suggests that we may be observing the same system of slowly growing groups all the time. Therefore, we suggest a third possibility, i.e., that such anomalously high loop systems first behave like post-flare loops but gradually take over some characteristics of a post-flare giant arch. The Soft X-ray Telescope aboardYohkoh, with spatial resolution improved by nearly an order of magnitude, might be able to check up on the development of such large-scale coronal structures if proper observational modes are applied after the occurrence of major eruptive flares.Deceased 1 June, 1993. 相似文献
16.
In investigating the effects of collision Alfvén waves on the heating of a cool-type solar loop, like the post-flare loop, models are proposed, and the distributions of ion or electron density, temperature, pressure, and wave energy density are simulated. We assumed the magnetic field strength in the loop is about 100 G and found that Alfvén waves can propagate through the whole loop, that is to say, the decay length of collision Alfvén waves which we consider can reach to the height or length of the loop. Thus, the Alfvén wave heating is a considerable heating mechanism in cool loops. And we also found that the variations of density, pressure, and wave energy density are more significant than those of the temperature. In the whole loop, the temperature is of the order of 104 K. In comparison with other parameters, the temperature can be considered as homogeneous; hence, the heat conductive flux in the simulations is omitted. 相似文献
17.
Shortly after the dynamic flare of 14 44 UT on 6 November, 1980, which initiated the second revival in the sequence of post-flare coronal arches of 6–7 November, a moving thermal disturbance was observed in the fine field of view of HXIS. From 15 40 UT until about 18 UT, when it left the field of view, the disturbance rose into the corona, as indicated by a projected velocity of 7.4 km s-1 in the south-east direction. The feature was located above the reconnection region of the dynamic flare and was apparently related to the revived coronal arch. Observations in the coarse field of view after 18 UT revealed a temperature maximum in the revived arch, rising with a velocity of 7.0 km s-1 directly in continuation of the thermal disturbance. The rise velocity of the disturbance was initially (at least until 17 20 UT) very similar to the rise velocities observed for the post-flare loop tops of the parent flare. This suggests that the rise of the reconnection point, in the Kopp and Pneuman (1976) mechanism responsible for the rise of the loop tops, also dictates the rise of the disturbance. From energy requirements it follows that in this phase the disturbed region is still a separate magnetic island, thermally isolated from the old arch structure and the post-flare loops. After 18 UT the rise of the post-flare loop tops slowed down to 2 km s-1, which is significantly slower than the rise of the brightness and temperature maxima of the revived arch in the coarse field of view. Thus in this phase the Kopp and Pneuman mechanism is no longer directly responsible for the rise of the thermal structure and the rise possibly reflects the merging of the old and the new arch structures.A similar thermal disturbance was observed after the dynamic flare of 07: 53 UT on 4 June, 1980. On the other hand, the confined flare of 17 25 UT on 6 November, 1980, did not show this phenomenon. Apparently this type of disturbance occurs after dynamic flares only, in particular when the flare is associated with an arch revival. 相似文献
18.
A single loop associated with a flare of 21 January 1974 was studied with NRL spectroheliograms in order to understand the phenomenon of evaporation. The loop seen in the emission lines of Fe xv reached its maximum brightness 15 min after the onset. The loop is different from a flare loop because of the time sequence in which it appeared and is different from a post-flare loop prominence system because of its morphology. The electron density in the loop increases gradually to 4 × 1010 cm–3. The material of the loop is thought to be supplied from the lower atmosphere of the chromosphere or the photosphere. The loop is an associated phenomenon of the main flare event distinguished by a longer rise time (15 min) and a lower peak temperature (2 × 106 K). 相似文献
19.
A study is made of X-ray line emission observed during the developing stages of a set of post-flare loop prominences. The time behaviour of the line emission can be described by a model consisting of two flux tubes containing plasma heated impulsively at the flash phase; the plasma cools by radiation and by conduction to the chromosphere. These ideas are extended to the possible formation of H prominences from low-lying hot loops. 相似文献
20.
Marie K. McCabe Zdeněk F. Švestka Russell A. Howard Bernard V. Jackson Neil R. Sheeley Jr. 《Solar physics》1986,103(2):399-408
By using a combination of X-ray (HXIS), H (Haleakala), white-light corona (Solwind), and zodiacal light (Helios) images on 21–22 May, 1980 we demonstrate, and try to explain, the co-existence of a coronal mass ejection with a stationary post-flare coronal arch. The mass ejection was seen, both by Solwind and Helios, in prolongation of the path of a powerful spray, whereas the active region filament did not erupt. A tentative comparison is made with other occurrences of stationary, or quasi-stationary post-flare coronal arches. 相似文献