共查询到19条相似文献,搜索用时 218 毫秒
1.
本文对针太阳射电时间分辨率观测研究中的普遍关心的事件证认问题,分析了精细构事件与干扰信号在“空域”上的特征差异,在“10cm波段高时间分辨率太阳强度纹”上,采取了抗干扰和识别干扰的技术措施,极大的抑制了雷达干扰,提高了事件的置信度。在缺乏同地域精细结构同时性事件情况下,本文介绍的措施,对事件的自证认不失为一种有效的手段。 相似文献
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本文对太阳射电高时间分辨率观测中的一些干扰问题作了初步分析,并提出了区分太阳射电精细结构事件与雷达干扰的相应办法。 相似文献
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太阳二十二周峰年云南天文台四波段射电同步观测结果 总被引:1,自引:1,他引:0
本文主要介绍云南天文台“四波段太阳射电高时间分辨率同步观测系统”1989年12月至1993年4月观测事件的统计结果,对102个射电爆发进行了初步分析,着重揭示几个类别典型事件的时间轮廓,说明射电高时间分辨率观测的意义。 相似文献
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本文对太阳射电精细结构这一领域进行了较为详尽深入的调研,发现由于观测仪器技术指标(时间、频率、频率覆盖、偏振、灵敏度等)相对不高,有很多的精细结构,在时间上、在频率上并没有被完全分解开来,或是没有被检测到。对FFS的研究,还处于发现-认识-逐步深化的阶段。观测资料还很单薄。在微波高端(厘米波段),精细结构的观测资料更是很少。另外,对FFS也只是有一个侧重频谱形态的分类。本文利用我国的“太阳射电宽带快速频谱仪”的观测资料,几年来,对微波频段的射电快速精细结构进行了较为深入的研究。主要研究结果有:发现了弱偏振微波尖峰辐射中两个偏振分量之间的时间延迟和偏振反转现象;首次发现了微波(短分米波段)高偏振U型爆发并给出解释;首次发现了厘米波N型和M型爆发并给出解释;首次发现了高偏振微波斑点并给出解释;首次利用甚高频率分辨率频谱仪,通过对大样本的分米波尖峰辐射的统计,给出了更为可靠的、更小的相对带宽的下限;结合高空间分辨率的观测资料,对运动Ⅳ型爆发及其伴生的精细结构作了探讨;对双向电子束的起源及其加速位置进行了研究。 相似文献
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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
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太阳射电快速活动的观测特征 总被引:1,自引:0,他引:1
本文着重描述了目前国际上在太阳射电天文学的研究中,由于采用了高时间分辨率的仪器设备,取得了太阳射电辐射毫秒级快速活动的精细结构方面的宝贵资料。此外,本文对太阳射电快速活动的观测特征作了一个初步小结。 相似文献
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本文对太阳射电精细结构这一领域进行了较为详尽深入的调研 ,发现由于观测仪器技术指标 (时间、频率、频率覆盖、偏振、灵敏度等 )相对不高 ,有很多的精细结构 ,在时间上、在频率上并没有被完全分解开来 ,或是没有被检测到。对FFS的研究 ,还处于发现 -认识 -逐步深化的阶段。观测资料还很单薄。在微波高端 (厘米波段 ) ,精细结构的观测资料更是很少。另外 ,对FFS也只是有一个侧重频谱形态的分类。本文利用我国的“太阳射电宽带快速频谱仪”的观测资料 ,几年来 ,对微波频段的射电快速精细结构进行了较为深入的研究。主要研究结果有 :发现了弱偏振微波尖峰辐射中两个偏振分量之间的时间延迟和偏振反转现象 ;首次发现了微波 (短分米波段 )高偏振U型爆发并给出解释 ;首次发现了厘米波N型和M型爆发并给出解释 ;首次发现了高偏振微波斑点并给出解释 ;首次利用甚高频率分辨率频谱仪 ,通过对大样本的分米波尖峰辐射的统计 ,给出了更为可靠的、更小的相对带宽的下限 ;结合高空间分辨率的观测资料 ,对运动Ⅳ型爆发及其伴生的精细结构作了探讨 ;对双向电子束的起源及其加速位置进行了研究 相似文献
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对云南天文台“四波段太阳射电高时间分辨率同步观测系统”自1989年12月-1994年1月期间观测到的100个射电爆发和与其共生的29个快速精细结构在日球和日面的经度分布做了统计,并做了初步的分析的讨论。 相似文献
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The effective observation of burst events in solar radio research has been impeded by various interference signals,especially interference signals with a wide frequency range and high intensity,as they can partially or completely obscure the observation of burst events.Image processing methods that directly remove the interference signal channels and subtract the average of the interference signal channel are not suitable for processing all types of interference signals.This paper proposes the use of a specific kind of recurrent neural networks,called long short-term memory networks,to predict the value of the radio frequency interference signals with high intensity of the burst event in the solar radio spectrum.The predicted interference can then be removed in accordance with the principle that signals can be linearly added.Therefore,predicted value is subtracted from the data containing the burst event signals and the RFI signals(The radio frequency interference signals to be processed in this article refer to the signal of the broadcast signal that can be received in the frequency range,the signal transmitted by the mobile phone,and the signal transmitted by the sea vessel,and the like) to remove the interference.Then,in order to reduce the error caused by the stepwise prediction in the network and further improve the prediction accuracy,this paper analyzes the characteristics of the value of the radio interference and applies the digital mapping method to convert the prediction problem into the classification problem in the time series.The experimental results show that the proposed method can effectively remove the radio interference in the solar spectrum and clearly show the burst events. 相似文献
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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
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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
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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
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本文简要介绍了云南天文台新建立的21cm波段快速(不中断采样)记录系统,及使用该系统观测到的快速尖峰事件。系统得到的太阳分米波段爆发中不同时间尺度的精细结构与Stu-rroch等提出的太阳耀斑中能量释放的模式相一致。 相似文献
16.
对云南天文台“四波段太阳射电高时间分辨率同步观测系统”自1989年12月—1994年1月期间观测到的100个射电爆发和与其共生的29个快速精细结构在日球和日面的经度分布做了统计,并做了初步的分析和讨论。 相似文献
17.
Recent technical progress of solar radio spectrography is concerned with digital data recording, the achievement of high time and frequency resolution, and with an improved coverage of the radio range at short and long wavelengths. A spatially-distributed network of radio spectrographs allows for complementary information about solar events and periods of activity selected for detailed investigation.By modern radio spectrographs a wealth of not yet adequately classified spectral fine structures can be observed, some of them potentially intimately related to effects of fragmentation of flare energy and/or to processes related to coronal heating. Requirements for the choice of technical parameters of solar spectrographs for checking theoretical models of fundamental processes of energy release are reflected in modern instruments. Prospects for future observations are briefly included. 相似文献
18.
Anisotropic Beam Model for the Spectral Observations of Radio Burst Fine Structures on 1998 April 15
A fine structure consisting of three almost equidistant frequency bands was observed in the high frequency part of a solar burst on 1998 April 15 by the spectrometer of Beijing Astronomical Observatory in the range 2.6-3.8GHz. A model for this event based on beam-anisotropic instability in the solar corona is presented. Longitudinal plasma waves are excited at cyclotron resonance and then transformed into radio emission at their second harmonic.The model is in accordance with the observations if we suppose a magnetic field strength in the region of emission generation of about 200G. 相似文献
19.
Baolin Tan 《Astrophysics and Space Science》2010,325(2):251-257
The microwave Zebra pattern structure is an intriguing fine structure on the dynamic spectra of solar type IV radio bursts.
Up to now, there is no perfect physical model for the origin of the solar microwave Zebra pattern. Recently, Ledenev et al.
(Sol. Phys. 233:129, 2006) put forward an interference mechanism to explain the features of microwave Zebra patterns in solar continuum events. This
model needs a structure with a multitude of discrete narrow-band sources of small size. Based on the model of a current-carrying
plasma loop and the theory of tearing-mode instability, we propose that the above structure does exist and may provide the
main conditions for the interference mechanism. With this model, we may explain the frequency upper limit, the formation of
the parallel and equidistant stripes, the superfine structure and intermediate frequency drift rate of the Zebra stripes.
If this explanation is valid, the Zebra pattern structures can reveal some information of the motion and the inner structures
of the coronal plasma loops. 相似文献