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1.
本采用荷兰Dwingloo射电天台的多通道频谱仪(4-8GHz)所观测到的一种典型的精细结构事例(Type Hand)来证实源区存在小尺度磁场结构以及电子的短时标加速过程。进一步根据实测和理论分析估算电子的平均速度大约为光速的十分之一,微磁流管直径大约为600km。以及在短时标(0.1s)加速过程中电子能量密度的演化。由此可见,在射电精细结构的动态频谱中含有极其丰富的物理信息,对太阳耀斑机制的 相似文献
2.
一个太阳耀斑约含数千个微耀斑[1],每个微耀斑以热的,低频波和加速粒子的形式释放能量。耀斑期间大部分能量的释放是通过电子加速转移的结果,然而电子加速是在耀斑前相开始,并在整个耀斑持续期间继续保持。在耀斑发展的不同相期间伴有各种各样的射电辐射现象(及其它波段共生现象),多波段射电观测和比较可以给出有关电子加速过程和耀斑自身发展的重要信息,尤其可检测加速开始的时间和频率部位(目前仍为太阳物理的前沿)。微耀斑能量的瞬时释放可能是引起不同类型快速精细结构的原因,射电毫秒级尖峰辐射是起因于连续能量释放的证据,其辐射源位于或靠近能量释放区[2],公认射电辐射的快速结构是日冕电子束的特征信号[3,4],所以今后使用高时间和高频率分辨率的宽带频谱仪同时观测可详细地探测加速过程,从而对预耀斑的加热和初始能量释放,耀斑的逐步建立和演化都具有重要意义。本文介绍几个典型事件,包括射电尖峰脉冲辐射,类尖峰辐射和短时标漂移结构 相似文献
3.
通过1991年6月6日共生太阳白光耀斑(WLF)的射电运动IV型爆发及其伴随现象(包括耀斑后环、爆发衰减相的射电脉动、多波段射电辐射和太阳物质抛射等)观测资料的分析,定性地探讨了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冕电子加速区,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电子沉降能量于色球层,产生色球层的压缩波或向下的辐射场进而使上光球层温度增加导致WLF此外,提出WLF可能会伴有耀斑后环和射电精细结构的对应物. 相似文献
4.
总结了近期用射电频谱仪(高时间和高频谱分辨)和野边山射电日像仪(高空间分辨)以及国内外其它空间和地面设备分析日冕磁场和重联的系列工作。主要结论可归纳为:1)在Dulk等人(1982)的近似下自恰计算射电爆发源区磁场的平行和垂直分量,并首次得到该磁场在日面的两雏分布。2)为了考虑非热电子低能截止的影响,必须采用更严格的回旋同步辐射理论来计算。结果表明:低能截止和日冕磁场对计算有明显的影响,而其它参数(包括背景温度、密度、高能截止和辐射方向)的影响均可忽略。因此,对低能截止和日冕磁场必须联立求解。3)射电爆发中的精细结构可能反映了射电爆发源比较靠近粒子加速(磁场重联)的区域,利用高时间和高频率分辨的频谱仪和高空间分辨的日像仪联合分析,可以确定精细结构的源区位置,从而确定粒子加速(磁场重联)的准确时间和地点。 相似文献
5.
一太阳耀斑的约含数千个微耀斑,每个微耀斑以热的,低频波和加速粒子的形成释放能量。耀斑期间大部分能量的释放是通过电子加速转移的 结果,然而电子加速是在耀斑前相开始,并在整个耀斑持续期间继续保持。本文介绍几个典型事件,包括射电尖峰脉冲辐射,类尖峰辐射和短时标漂移结构。 相似文献
6.
国家天文台分米波太阳射电频谱仪用新的观测模式获得太阳射电频谱的一些新的观测现象。新的观测模式频率在1.1—1.34GHz范围,时间分辨率是1.25ms;正常的观测模式下频率在1.1—2.06GHz范围,时间分辨率是5ms。在两种模式下频率分辨率为4MHz。发现窄带Ⅲ型爆发(“blips”)斑马纹(Zebra)和纤维结构(Fiber)中的超精细结构和一些新的精细结构。这些新的结果有助于深入理解在太阳耀斑期间低日冕中能量的释放和转移,也为拟建中的太阳射电频谱日像仪提出了新的要求。 相似文献
7.
本文介绍一组短分米波(1.42GHz)太阳微耀斑的射电和光学辐射特征,它们包含53个叠加在连续辐射背景上的射电快速精细结构(FFS),即准周期快速脉冲链(称微耀斑),它们的形态相似,强度大约在150-200sfu范围内,其寿命(半功率宽)大多为15-50ms,有18个分离的双峰结构,该事件产生的7646活动区中出现两处新浮现的几个小黑子,呈现复杂极性,可能存在多重交叉小磁流环多次重联的复杂状况.本文定性地讨论了其产生机制,支持电流环爆炸性聚合模型的理论。 相似文献
8.
纪树臣 《紫金山天文台台刊》1999,(2)
基于云南天文台射电频谱仪的频率设置,第23 周太阳峰年期,我们作了下列观测研究选题:(1) 质子耀斑的初始能量释放过程及粒子加速研究。(2) 通过微波———分米波运动Ⅳ型爆发观测,开展日冕物质抛射研究。(3) 射电快速精细结构及微耀斑研究。(4) 通过频谱观测发展日冕磁场的诊断方法、反演磁场的拓朴结构。(5) 开展太阳灾变事件中的射电先兆研究,为日地空间环境警报提供射电观测依据 相似文献
9.
一个新型分米波太阳微耀斑现象的观测分析 总被引:1,自引:0,他引:1
本介绍一组短分米波(1.42GHz)太阳微耀斑的射电和光学辐射特征,它们包含3个叠加在连续辐射背景上的射电快速精细结构(FFS),即准周期快速脉冲链(称微耀斑)它们的形态相似,强度大约在150-200sfu范围内,其寿命(半功率宽)大多为15-50ms,有18个分离的双峰结构,该事件产生的7646活动区中出现两处新浮现的几个小黑子,呈现复杂极性,可能存在多重交叉小磁流环多次重联的复杂状况,本定 相似文献
10.
用美国甚大阵(VLA)对色球活动性双星系统UXAri进行了从1.4GHz到15GHz范围内五个频段的观测,观测期间UXAri处于活动性比较低的阶段,射电光度为(6.6-12.6)×1016ergs-1Hz-1.射电频谱低频部分比较平坦,高频呈幂律形式,低频的圆偏振度很低,趋于零,高频辐射有中等圆偏振度(15%).射电发射机制可能是回旋同步加速机制,由此我们估计出发射区的磁场强度为几至几十高斯,相对论电子密度为~104-102cm-3量级,热电子数密度~108cm-3。 相似文献
11.
12.
N. Gopalswamy 《Solar physics》1987,110(2):327-335
The pulsed electron acceleration and release from the energy release volume in solar flares implies that there is a possibility of interaction between a group of electrons reflected from the foot of a bipolar flux tube with a newly injected beam. It is shown that interaction can lead to the stoppage of the synchrotron maser instability caused by the loss cone distribution and hence can produce further millisecond fine structures in the solar microwave bursts. 相似文献
13.
As evidence for energy release in microflares, high time resolution observations of solar radio emission obtained with our “synchronous observation system of solar radio radiation with high time resolution at four frequencies (1.42, 2.13, 2.84 and 4.26 GHz)” from December 1989 to April 1993 are presented in this paper. The observed events include weak ms spikes, “spike-likes”, fast pulsations as well as two kinds of newly discovered fast fine structures, i.e., microwave type III bursts and microwave patch-like structures. A statistical study of the duration of fast fine structures has been made and on its basis the various types of phenomena are illustrated with actual examples. 相似文献
14.
太阳射电宽带动态频谱仪步研究进展 总被引:1,自引:0,他引:1
介绍了围绕我国近年完成的太阳射电宽带动态频亦仪展开的研究工作进展,并提出了今后的努力方向,以期庐设备能在我国第23周太阳活动峰年研究中发展更大作用。 相似文献
15.
太阳大气磁场的研究对于太阳大气物理及太阳活动研究是十分重要的。目前探测光球以外的日够以球,过渡区磁场的几乎唯一办法,是在紧密联系其他频说段取得的信息基础上使用射电观测。根据在微波,米波段有关辐射机制和传播过程,介绍了推导磁场讯息的基本射电方法。 相似文献
16.
Fine structure in solar microwave bursts 总被引:3,自引:0,他引:3
We have designed and constructed a new multi-channel radio spectrograph for the study of short-lived structures in solar microwave bursts. It measured the integrated flux over the whole solar disc in two circular polarizations at 36 frequencies between 4 and 8 GHz, with a time constant of 0.5 ms. We have analyzed all 119 recorded bursts observed in 1981 and 1983. We focused our attention on events with a lifetime of less than 1 s. Fine structure occurs in about 30% of the observed bursts, and can be as rich in detail as in bursts observed at lower frequencies. We found at least four different classes of events. In one event neither bandwidth nor time resolution of the receiver appear to be sufficient to resolve the fine structure. The bulk of the drifts is found to be towards higher frequencies. Periodic flux variations were found in two cases. 相似文献
17.
A. N. Afanasiev 《Solar physics》2010,261(2):295-309
This paper investigates one of the kinds of fine structure of solar decametric type II radio bursts in the form of drifting
narrowband fibers. The appearance of such a structure is customarily explained by the features of the radio emission mechanism
in the source, which is formed when the shock wave catches up the previously-generated coronal mass ejection. On the other
hand, the characteristics of radio emission in the process of its propagation from the source to the observation point are
affected by inhomogeneities in the corona. Hence it is of considerable interest to estimate the role of the propagation effects
on the formation of fiber structures in radio bursts. Our calculations show that strong refraction effects (caustics) can
give rise to narrowband structures in the dynamic spectrum, resembling in their characteristics the fibers observed. 相似文献
18.
Variations on short time-scales have been found in solar flares at different wavelengths. Millisecond scale radio spikes are a quickly developing area of solar radio astronomy. The solar radio astronomy group of Beijing Astronomical Observatory (BAO) has found fine structures of microwave bursts with millisecond time-scale at 2840 MHz. In this paper, we briefly summarize the observations. A joint-observation network for observing solar radio bursts with high time resolution has also been established. The equipment in the network covers a frequency domain of more than 10:1, including 1.3, 2.0, 6, 10, 15, 20 cm, and meter wavelengths. In particular, a multi-channel polarimeter with super-fast sampling (10 s) at 2600 MHz, an intensity interferometer with 1 ms sampling rate at 6 cm wavelength, and an auto-correlation radio spectrograph with 8 ms time constant at 21 cm wavelength are being established. We pay close attention to research on the spike emission features over wide bands, and their relationship to special characteristics in other spectral ranges. 相似文献
19.
Qi-Jun Fu Yi-Hua Yan Yu-Ying Liu Min Wang Shu-Juan WangNational Astronomical Observatories Chinese Academy of Sciences Beijing fuqijun@sohu.com 《中国天文和天体物理学报》2004,4(2):176-188
The 2.6-3.8 GHz, 4.5-7.5 GHz, 5.2-7.6 GHz and 0.7-1.5 GHz component spectrometers of Solar Broadband Radio Spectrometer (SBRS) started routine observations, respectively, in late August 1996, August 1999, August 1999, and June 2000. They just managed to catch the coming 23rd solar active maximum. Consequently, a large amount of microwave burst data with high temporal and high spectral resolution and high sensitivity were obtained. A variety of fine structures (FS) superimposed on microwave bursts have been found. Some of them are known, such as microwave type Ⅲ bursts, microwave spike emission, but these were observed with more detail; some are new. Reported for the first time here are microwave type U bursts with similar spectral morphology to those in decimetric and metric wavelengths, and with outstanding characteristics such as very short durations (tens to hundreds ms), narrow bandwidths, higher frequency drift rates and higher degrees of polarization. Type N and type M bursts were also observed. Detailed zebra pattern and fiber bursts at the high frequency were found. Drifting pulsation structure (DPS) phenomena closely associated with CME are considered to manifest the initial phase of the CME, and quasi-periodic pulsation with periods of tens ms have been recorded. Microwave “patches”, unlike those reported previously, were observed with very short durations (about 300ms), very high flux densities (up to 1000 sfu), very high polarization (about 100% RCP), extremely narrow bandwidths (about 5%), and very high spectral indexes. These cannot be interpreted with the gyrosynchrotron process. A superfine structure in the form of microwave FS (ZPS,type U), consisting of microwave millisecond spike emission (MMS), was also found. 相似文献
20.
We have selected 27 solar microwave burst events recorded by the Solar Broadband Radio Spectrometer (SBRS) of China, which were accompanied by M/X class flares and fast CMEs. A total of 70.4% of radio burst events peak at 2.84 GHz before the peaks of the related flares’ soft X-ray flux with an average time difference of about 6.7 minutes. Almost all of the CMEs start before or around the radio burst peaks. At 2.6?–?3.8 GHz bandwidth, 234 radio fine structures (FSs) were classified. More often, some FSs appear in groups, which can contain several individual bursts. It is found that many more radio FSs occur before the soft X-ray maxima and even before the peaks of radio bursts at 2.84 GHz. The events with high peak flux at 2.84 GHz have many more radio FSs and the durations of the radio bursts are independent of the number of radio FSs. Parameters are given for zebra patterns, type III bursts, and fiber structures, and the other types of FSs are described briefly. These radio FSs include some special types of FSs such as double type U bursts and W-type bursts. 相似文献