共查询到19条相似文献,搜索用时 171 毫秒
1.
基于我国的太阳射电宽带频谱仪(0.625~7.600GHz)在2003年10月22日~11月3日观测到8个伴生日冕物质抛射(CME)的太阳射电爆发,结合Nobeyama Radio Polarimeter(NORP)的单频观测、Nobeyama Radioheliograph (NORH)、Siberian Solar Radio Telescope(SSRT)的成像观测以及Culgoora和WAVE/WIND的低频射电频谱观测,对8个射电爆发的射电辐射特征进行了初步分析.试图从中寻找与CME伴生的射电爆发的特征。 相似文献
2.
利用太阳射电宽带频谱仪(0.7-7.6GHz)于2001年10月19日观测到的复杂太阳射电大爆发,呈现出许多有趣的特征,结合NoRH(Nobeyama Radio Heliograph)的高空间分辨率射电成像观测及TRACE(Transition Region and Coronal Explorer)在远紫外(EUV)波段的高空间分辨率成像观测资料,分析了该爆发的射电频谱特征和微波射电源的演化以及它们与复杂的EUV日冕环系统的关系,该爆发是一个双带大耀斑的射电表征.前一部分以宽带(从厘米到米波)爆发为主,机制是回旋同步辐射,所对应的是环足源的辐射;后一部分以窄带(分米到米波)分米波爆发为主,机制是等离子体辐射和回旋共振辐射的联合,对应的是环顶源的辐射。 相似文献
3.
本介绍了云南天台四波段(1.42,2.13,2.84和4.26GHz)太阳射电高时间分辨率同步观测得到的五个微波III爆发事件,它们具有宽频带,长和短寿命,内向和外向快速频漂等特征,观测事例表明,非热电子束引起的等离子体辐射和电子回旋脉泽辐射两种机制都可能发生,这些观测特征即可不完全同于米波-分米波III型爆发,也不完全同于微波高频段III型爆发,说明在微波低频段可能存在二重性或过渡现象。 相似文献
4.
本文介绍了云南天文台四波段(1.42,2.13,2.84和4.26GHz)太阳射电高时间分辩率同步观测得到的五个微波II型爆发事件,它们具有宽频带、长和短寿命、内向和外向快速频漂等特征.观测事例表明,非热电子束引起的等离子体辐射和电子回旋脉泽辐射两种机制都可能发生.这些观测特征既不完全同于米波—分米波II型爆发,也不完全同于微波高频段II型爆发,说明在微波低频段可能存在二重性或过渡现象 相似文献
5.
利用云南天文台射电四频率(1.42,2.13,2.84和4.26GHz)同步观测系统于1989.12-1994.1和北京天文台射电频谱仪(2.6-3.8GHz)于1996.11-1998.5的观测资料,仅对太阳和射电爆发中40个事件作了一个初步的统计分析,就微波低频段的快速精细结构在耀斑中产生的相位作了一个探索,期望找出太阳射电在此频段内快速活动产生相位的规律性。 相似文献
6.
云南天文台“四波段(1.42GHz,2.13GHz,2.84GHz和4.26GHz)太阳射电高时间同步观测系统”在1990.1~1994.1期间,观测到5个具有短时标漂移结构的射电爆发事件,也就是微波Ⅲ型爆发。本文从中选取较典型的1991年3月13日事件,对Ⅲ型爆发的时间轮廓(持续时间,衰减时间)作了分析,并与米波,分米波和微波段其它观测结果作了一些比较,以求对长厘米~短分米波段(微波低端)Ⅲ型爆发的时间轮廓的特征有一个初步的了解,最后对爆发的物理参数作了估计。 相似文献
7.
利用云南天文台射电四频率(1.42,2.13,2.84和4.26GHz)同步观测系统于1989.12~1994.1和北京天文台射电频谱仪(2.6~3.8GHz)于1996.11~1998.5的观测资料,仅对太阳和射电爆发中40个事件作了一个初步的统计分析,就微波低频段的快速精细结构在耀斑中产生的相位作了一个探索,期望找出太阳射电在此频段内快速活动产生相位的规律性。 相似文献
8.
一个含有丰富快速精细结构的射电大爆发 总被引:2,自引:2,他引:0
本文对1990年7月30日云南天文台四波段太阳射电高时间分辨率同步观测系统^「1,2」所观测到的太阳射电大爆发进行了分析,对在1.42GHz,2.00GHz,2.84GHz三个波段上观测到的大量尖峰辐射作了关于寿命和强度的统计,最后,针对本次爆发中的ms-spikes的特点做了一些讨论。 相似文献
9.
云南天文台“四波段(1.42GHz,2.13GHz,2.84GHz和4.26GHz)太阳射电高时间同步观测系统”在1990.1 ̄1994.1期间,观测到5个具有短时标漂移结构的射电爆发事件,也就是微波Ⅲ型爆发。本文从中选取较典型的1991年3月13日事件,对Ⅲ型爆发的时间轮廓(持续时间,衰减时间)作了分析,并与米波,分米波和微波段其它观测结果作了一些比较,以求对长厘米 ̄短分米波段(微波低端)Ⅲ型爆 相似文献
10.
日冕物质抛射(ChIEs)经常被观测到和其他日面活动相伴生,太阳耀斑、日珥爆发、盔状冕流等许多太阳现象,都与它有直接或间接的关系。射电观测是研究CMEs的一种重要的补充工具。多频率的射电成像观测能很好地研究CMEs的初始阶段,而且可以得到关于CMEs触发机制特征的更多信息。概括了CMEs与低频射电的关系,介绍了低频射电的观测仪器,分析了CMEs低频射电所表现出来的特征,考虑了CMEs的初发机制,总结了尚待解决的问题,表明了CMEs研究是基于多类数据和全电磁辐射波段的。 相似文献
11.
《Chinese Astronomy and Astrophysics》2005,29(2):189-202
On 2001 Oct. 19, a very complex solar radio burst with a host of interesting features was observed with a broadband (0.7–7.6 GHz) solar radio spectrometer. Combining with the data of NoRH (Nobeyama Radio Heliograph) and TRACE (Transition Region and Corona Explorer), the spectral features of the radio burst, the evolution of the microwave radio sources, and relations with the complex EUV coronal loops are analyzed. The burst is the radio manifestation of a large double-ribbon flare; it consisted of two stages. The earlier stage was dominated bya broadband burst in the centimeter-meter waveband from gyro-synchrotron emission of sources at the footpoints of the loop. The later stage was dominated by a narrow-band decimeter wave burst in the decimetermeter waveband, from a combination of plasma emission and gyro-resonance emission from sources in the top of the loop. 相似文献
12.
We present the results of an analysis of a flare event of importance M2.8 that occurred at 00:56 UT 28 August 1999. The analysis is based upon observations made with the Nobeyama radioheliograph (NoRH) and polarimeters (NoRP), TRACE, SOHO/MDI, EIT, and Yohkoh/SXT. The images show a very complex flaring region. Pre-flare TRACE and EIT images at 00:24 UT show a small brightening in the region before the flare occurred. The active region in which the flare occurred had evolving magnetic fields, and new magnetic flux seems to have emerged. The X-ray and radio time profiles for this event show a double-peaked structure. The polarimeter data showed that the maximum radio emission (1200 s.f.u.) occurred at 9.4 GHz. At 17 GHz the NoRH images appear to show four different radio sources including the main spot and the main flare loop. Most of the microwave emission seems to originate from the main flare loop. Comparison of BATSE and microwave time profiles at 17 and 34 GHz from the main sunspot source shows that these profiles have similar structures and they coincide with the hard X-ray peaks. The maximum of the flare loop emission was delayed by 10 s relative to the second maximum of the sunspot associated flare emission. Analysis of SXT images during the post-flare phase shows a complex morphology – several intersecting loops and changes in the shape of the main flare loop. 相似文献
13.
Min Wang Rui-Xiang Xie Chun Xu Shuo-Biao Shi Yi-Hua Yan National Astronomical Observatories Yunnan Observatory Chinese Academy of Sciences Kunming National Astronomical Observatories Chinese Academy of Sciences Beijing 《中国天文和天体物理学报》2005,5(5):508-518
We present a, large complex radio burst and its associated fast tune structures observed on 2001 April 10 in the frequency range of 0.65-7.6 GHz. The NoRH radio image observation shows very complex radio source structures which include preexisting, newly emerging, submerging/cancelling polarities and a bipolar, a tripolar (a 'bipolar + remote unipolar'), and a quadrupolar structure. This suggests that the radio burst is generated from a very complicated loop structure. According to the spectral and image observations, we assume that the beginning of this flare was caused by a single bipolar loop configuration with a 'Y-type' re-connection structure. A composite of radio continuum and fast time structures is contained in this flare. The various fast radio emission phenomena include normal and reverse drifting type III bursts, and slowly drifting and no-drift structures. The tripolar configurations may form a double-loop with a 'three-legged' structure, which is an important source of the various types of fast time structures. The two-loop reconnection model can lead simultaneously to electron acceleration and corona heating. We have also analyzed the behaviors of coronal magnetic polarities and the emission processes of different types radio emission qualitatively. Interactions of a bipolar or multi-polar loop are consistent with our observational results. Our observations favor the magnetic reconnection configurations of the 'inverted Y-type' (bipolar) and the 'three-legged' structures (tripolar or quadrupolar). 相似文献
14.
Bhuwan Joshi P. K. Manoharan Astrid M. Veronig P. Pant Kavita Pandey 《Solar physics》2007,242(1-2):143-158
The evolution of an X2.7 solar flare, that occurred in a complex β γ δ magnetic configuration region on 3 November 2003 is discussed by utilizing a multi-wavelength data set. The very first signature of pre-flare coronal activity is observed in radio wavelengths as a type III burst that occurred several minutes prior to the flare signature in Hα. This type III burst is followed by the appearance of a loop-top source in hard X-ray (HXR) images obtained from RHESSI. During the main phase of the event, Hα images observed from ARIES solar tower telescope, Nainital, reveal well-defined footpoint (FP) and loop-top (LT) sources. As the flare evolves, the LT source moves upward and the separation between the two FP sources increases. The co-alignment of Hα with HXR images shows spatial correlation between Hα and HXR footpoints, whereas the rising LT source in HXR is always located above the LT source seen in Hα. The evolution of LT and FP sources is consistent with the reconnection models of solar flares. The EUV images at 195 Å taken by SOHO/EIT reveal intense emission on the disk at the flaring region during the impulsive phase. Further, slow-drifting type IV bursts, observed at low coronal heights at two time intervals along the flare period, indicate rising plasmoids or loop systems. The intense type II radio burst at a time in between these type IV bursts, but at a relatively greater height, indicates the onset of CME and its associated coronal shock wave. The study supports the standard CSHKP model of flares, which is consistent with nearly all eruptive flare models. More importantly, the results also contain evidence for breakout reconnection before the flare phase. 相似文献
15.
T. E. Gergely M. R. Kundu F. T. Erskine III C. Sawyer W. J. Wagner R. Illing L. L. House M. K. McCabe R. T. Stewart G. J. Nelson M. J. Koomen D. Michels R. Howard N. Sheeley 《Solar physics》1984,90(1):161-176
We discuss simultaneous visible-light and radio observations of a coronal transient that occurred on 9 April, 1980. Visible-light observations of the transient and the associated erupting prominence were available from the Coronagraph/Polarimeter carried aboard SMM, the P78-1 coronagraph, and from the Haleakala Observatory. Radio observations of the related type III-II-IV bursts were available from the Clark Lake and Culgoora Observatories. The transient was extremely complex; we suggest that an entire coronal arcade rather than just a single loop participated in the event. Type III burst sources observed at the beginning of the event were located along a nearby streamer, which was not disrupted, but was displaced by the outmoving loops. The type II burst showed large tangential motion, but unlike such sources usually do, it had no related herringbone structure. A moving type IV burst source can be associated with the most dense feature of the white-light transient. 相似文献
16.
M. R. Kundu V. V. Grechnev S. M. White E. J. Schmahl N. S. Meshalkina L. K. Kashapova 《Solar physics》2009,260(1):135-156
We investigate accelerated electron energy spectra for different sources in a large flare using simultaneous observations
obtained with two instruments, the Nobeyama Radio Heliograph (NoRH) at 17 and 34 GHz, and the Reuven Ramaty High Energy Solar
Spectroscopic Imager (RHESSI) at hard X-rays. This flare is one of the few in which emission up to energies exceeding 200 keV
can be imaged in hard X-rays. Furthermore, we can investigate the spectra of individual sources up to this energy. We discuss
and compare the HXR and microwave spectra and morphology. Although the event overall appears to correspond to the standard
scenario with magnetic reconnection under an eruptive filament, several of its features do not seem to be consistent with
popular flare models. In particular we find that (1) microwave emissions might be optically thick at high frequencies despite
a low peak frequency in the total flux radio spectrum, presumably due to the inhomogeneity of the emitting source; (2) magnetic
fields in high-frequency radio sources might be stronger than sometimes assumed; (3) sources spread over a very large volume
can show matching evolution in their hard X-ray spectra that may provide a challenge to acceleration models. Our results emphasize
the importance of studies of sunspot-associated flares and total flux measurements of radio bursts in the millimeter range. 相似文献
17.
This study has been motivated by the detection of a small number of optically thin microwave bursts with maximum emission near the loop top, which is contrary to the prediction of isotropic gyrosynchrotron models. Using Nobeyama Radioheliograph (NoRH) high-spatial-resolution images at 17 and 34 GHz, we study the morphology at the radio peak of 104 flares that occurred relatively close to the limb. Using data from the Nobeyama Polarimeter we were able to determine whether the 17- and 34-GHz emissions came from optically thin or thick sources. We identified single-loop events, taking into account supplementary information from EUV and soft X-ray (SXR) images. We found optically thin emission from the top of the loop in 36% of single-loop events. In agreement with standard models, in this sample 46% and 18% of the events showed optically thin emission from the footpoints and optically thick emission from the entire loop, respectively. The derived percentage of events with gyrosynchrotron emission from isotropic populations of energetic electrons is possibly an upper limit. This point is illustrated by the analysis of an optically thin event that shows footpoint emission during the rise phase and loop-top emission during the decay phase. A model that takes into account both anisotropies in the distribution function of nonthermal electrons and time evolution can reproduce the observed transition from footpoint to loop-top morphology, if electrons with pitch-angle anisotropy are injected near one of the footpoints. 相似文献
18.
The polarization is analyzed in four microwave bursts with one loop-top and two footpoint sources observed at 17 GHz with
the Nobeyama Radioheliograph (NoRH). The loop-like structure of the four events is confirmed by simultaneous SOHO/MDI magnetograms
and TRACE/EUV images or Yohkoh/SXT images. The heliocentric distance of the four events is greater than 30°. The three microwave sources in each given burst
are polarized in the same sense. This may be interpreted in terms of extraordinary mode emission, taking into account the
polarity of the underlying magnetic field and propagation effects, which may lead to inversion of the sense of polarization
in the limbward foot and loop-top source of the flaring loop. 相似文献
19.
Min Wang Rui-Xiang Xie Yi-Hua Yan Yu-Ying Liu 《中国天文和天体物理学报》2007,7(4):477-486
Three particularly complex radio bursts (2001 October 19, 2001 April 10 and 2003 October 26) obtained with the spectrometers (0.65-7.6GHz) at the National Astronomical Observatories, Chinese Academy of Sciences (NAOC, Beijing and Yunnan) and other in- struments (NoRH, TRACE and SXT) are presented. They each have two groups of peaks occurring in different frequency ranges (broad-band microwave and narrow-band decimeter wavelengths). We stress that the second group of burst peaks that occurred in the late phase of the flares and associated with post-flare loops may be homologous radio bursts. We think that they are driven by the post-flare loops. In contrast to the time profiles of the radio bursts and the images of coronal magnetic polarities, we are able to find that the three events are caused by the active regions including main single-bipole magnetic structures, which are associated with multipole magnetic structures during the flare evolutions. In particular, we point out that the later decimetric radio bursts are possibly the radio counterparts of the homologous flares (called "homologous radio bursts" by us), which are also driven by the single-bipole mag- netic structures. By examining the evolutions of the magnetic polarities of sources (17GHz), we could presume that the drivers of the homologous radio bursts are new and/or recurring appearances/disappearances of the magnetic polarities of radio sources, and that the triggers are the magnetic reconnections of single-bipole configurations. 相似文献