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1.
四频率太阳射电高时间分辨率观测特征:微耀斑能量释放的证据 总被引:1,自引:0,他引:1
作为微耀斑能量释放的证据,本文扼要介绍了云南天文台“四频率太阳射电高时间分辨率同步观测系统”(1.42,2.13,2.84和4.26GHz)1989年12月-1993年4月的观测事例,包含低强度的毫秒尖峰辐射(msspike),类尖峰辐射(spike-like),快速脉动现象,两种新的快速精细结构──微波Ⅲ型爆和微波类斑点结构.统计了快速精细结构的寿命,在统计基础上分别以实例描述了各类现象的观测特征. 相似文献
2.
本研究了寻常波和非常波在线性传播条件下,对快速毫秒级spike的时延、频漂和偏振逆转的影响。计算表明,在(20-40)×Baumbach-Allen的电子密度分布下,由于传播产生的时延,偏振逆转等约为30-300ms,这与观测结果在量级上是一致的。这说明在快速活动中传播效应是一个重要的因素。 相似文献
3.
根据不同的发射波模以及偏振态(偏振度与偏振方向)的快速时变特征,对1993年10月2日07:44:34-0.7:44:52:99UT期间的太阳射电事件进行了证认,认为这是一个由两群、总数约为40个尖峰(spike0结构组成的罕见的宽带事件,它的总带宽〉300MHz、相对带宽〈5%,根据它们在2.545GHz,2.645GHz,2.695GHz和2.840GHz上的流量资料,首次对一些spike结构 相似文献
4.
对1990年7月30日云南天文台4波段太阳射电同步观测系统所观测到的大量毫秒级尖峰辐射(ms-spikes)的时间轮廓(包括各种定义的持续时间,上升时间,衰减时间,强度等)作了详细的统计分析,并与米波-长厘米波段的spike的时间轮廓作了一些比较,以求对微波段的spike的时间轮廓的特征有一个深入的了解,进而对研究其辐射机制提供有益的帮助 相似文献
5.
对1990年7月30日云南天文台4波段太阳射电同步观测系统所观测到的大量毫秒级尖峰辐射(ms-spikes)的时间轮廓(包括各种定义的持续时间,上升时间,衰减时间,强度等)作了详细的统计分析,并与米波-长厘米波段的spike的时间轮廓作一些比较,以求对微波段的spike的时间轮廓的特征有一定深入的了解,进而对研究其辐射机理提供了有益的帮助。 相似文献
6.
本文对1990年7月30日云南天文台四波段(1.42GHz、2.00GHz、2.84GHz和4.00GHz)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(ms—spikes)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
7.
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
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9.
本文简要地讨论了1991年1月至12月太阳峰年期间在2545、2645MHz上观测的51个Spike辐射事件的高辐射流量、短持续时间、窄辐射带宽、快速频率漂移、准周期振荡和偏振成份快速变化等观测特征,并对这51个Spike事件与光学耀斑活动区磁场强度、磁位形及活动区黑子演化类型的密切关系进行了正、反向统计,鉴于Spike的辐射的观测特征与统计特征与已知的太阳射电爆发类型和太阳射电成分的特征有很大的 相似文献
10.
参加了Flares22和Max'91国际联合观测之后,我们处理了三个频率(1.42,2.84,3.67GHz)和四个频率(1.42,2.00,2.84,4.00GHz)或(1.42,2.13,2.84,4.26GHz)快速采样射电望远镜的观测资料。结果除了发现射电爆发源的局部区域中存在有射电辐射的第四种基本分量而外,还在微波爆发快速精细结构中发现了三种基本时间单元。其量级分别是:0.1秒>τ1≥1毫秒;1秒>τ2≥0.1秒;100秒>τ3≥1秒。尽管出现在各自基本时间单元内的FFS事件的形态及特性各自不同,但是,叠加在射电爆发背景之上的特性,构成了它们的共同属性。三种基本时间单元的确认,对于研究微波快速活动的精细时间结构,划分FFS事件的种类找到了根据。三种基本时间单元的研究,对于深入探讨产生FFS源的ECM理论,也具有重要的科学价值。 相似文献
11.
A millisecond recorder for solar observation at 2.84 GHz was put to work in 1981. From April 1981 to September 1982 it recorded 250spike pulse events, which are here listed together with information on the associated solar flares, hard X-ray bursts and radio bursts. In defining these spike events, particular attention has been paid to ensure the reliability of the recorded data. Statistical analysis of the data has given some interesting results. The spike pulses have shorter duration and higher flux density than were previously known, and the basic units of the spike pulse events are single spike pulses crowded together forming separate clusters. Many spike pulses observed are not yet resolved at 1 ms. Fast spike pulse events are closely correlated with complex magnetic field regions, and are often accompanied by hard X-ray bursts and fast drifting radio bursts. Some such events showed no correspondence with the radio bursts at the same frequency, 2.84 GHz, but corresponded to those occurring at dm and short cm wavelengths. Some theoretical investigations of the spike phonomena have been carried out, the details of which will be discussed elsewhere. 相似文献
12.
自1990年6月北京天文台太阳射电偏振仪投入实测以来,观测到一百多个“Spike”和短时标精细结构微波幅射,其中包括一些新的微波幅射特征。本文给出了主要的四点特征:(1)窄带辐射;(2)快速偏振逆转;(3)快速频率漂移;(4)不同时标的准周期振荡。 相似文献
13.
Eleven microwave spike events observed with the 2.6–3.8 GHz spectrometer of Beijing Astronomical Observatory (BAO) are analysed. The polarization degrees of spikes are variable, some spikes have frequency drift with the drift rate of several GHz s–1. In particular, the time delay (8 ms) between the two polarization modes of spike is detected, which is different from previous results. According to the leading spot rule, we conclude that the o-modes arrive first. Moreover, the reversal of polarization sense versus frequency is also found. A change of the emission mode may be the cause of the polarization reversal. 相似文献
14.
利用北京天文台 2.6—3.8 GHz频谱仪的观测资料,找到 11个微波尖峰辐射事件.尖峰一般具有数十毫秒的寿命,数百个sfu的流量密度和数十至数百MHz的带宽,这与以前的报道类似.尖峰的偏振度各式各样,有的尖峰还有数千MHz/s的频率漂移.某些尖峰在二个偏振态之间有8毫秒的时间延迟(最大延迟可达16毫秒).另外,还发现了尖峰的偏振度随频率剧烈变化的偏振反转现象. 相似文献
15.
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
16.
统计分析了云南天文台声光频谱仪在22周峰年期间记录到的米波尖锋事件与光学活动及相关事件的关系。从它们的观测特征:短寿命,窄频带,频率快速漂移,及尖峰事件与磁结构复杂的大黑子活动区密切相关等,认为这些事件的辐射机制可能是电子回旋脉泽不稳定直接放大电磁波所致。 相似文献
17.
S. W. Feng Y. Chen C. Y. Li B. Wang Z. Wu X. L. Kong Q. F. Du J. R. Zhang G. Q. Zhao 《Solar physics》2018,293(3):39
This paper presents the latest observations from the newly built solar radio spectrograph at the Chashan Solar Observatory. On July 18, 2016, the spectrograph records a solar spike burst event, which has several episodes showing harmonic structures, with the second, third, and fourth harmonics. The lower harmonic radio spike emissions are observed later than the higher harmonic bands, and the temporal delay of the second (third) harmonic relative to the fourth harmonic is about 30?–?40 (10) ms. Based on the electron cyclotron maser emission mechanism, we analyze possible causes of the temporal delay and further infer relevant coronal parameters, such as the magnetic field strength and the electron density at the radio source. 相似文献
18.
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
19.
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
20.
Adolfo L. Méndez Berhondo Ramón E. Rodríguez Taboada Paolo Zlobec 《Astrophysics and Space Science》2008,318(1-2):73-78
Pulsating structures recorded at 237 MHz that are associated to decimetric continuum enhancement during the September 9, 2001 solar radio burst are described. We analyzed the radiopolarimetric data recorded at the Trieste Solar Radio System (INAF—Trieste Astronomical Observatory—Basovizza Observing Station) with very high time resolution (1 ms) at metric frequencies. Two different types of pulsations that occur in about 4 minutes at the same frequency are described. The possible mechanisms are analyzed and some parameters of the associated magnetic structure are estimated. 相似文献