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云南天文台快速采样射电望远镜(1.42GHz,2.84GHz,4.00GHz)于1988年12月16日观测到一次特大微波Ⅳ型爆发.爆发从世界时08h31m开始,至09h41m结束.在70分钟的持续期内,爆发出现了五个主峰段,呈现出12.5分钟的长周期振荡和1.2分钟的短周期振荡.其中两个频率上出现了丰富的快速精细结构.根据爆发源区的扭斜磁场位形,本文提出振荡是MHD调制磁流管的磁场强度产生的,爆发是高能电子在磁场中被俘获做同步加速回旋辐射的结果,为此作出了定量和定性的解释. 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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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
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北京天文台对FFS事件的观测研究 总被引:1,自引:0,他引:1
从观测手段和取得的资料两个方面,评价了两个太阳峰年中北京天文台所观测到的太阳射电爆发中毫秒级快速精细结构(FFS)的观测结果.估计了新的观测仪器在第23周峰年将取得的观测结果.也讨论了在观测研究中值得重视的一些问题. 相似文献
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对1988年6月29日云南天文台高时间分辨率射电望远镜观测到的微波超快速吸收现象进行了分析研究。在世界时07h38m50s至07h38m58s超快速吸收现象出现在太阳活动区NOAA/USAF5060上空的400GHz上,而在284GHz和142GHz上空出现的是spike辐射。当时,该活动区呈现出极其活跃的双极磁场位形。在世界时07h38m至08h47m先后产生了3B级和2B级的Hα耀斑,并出现了M65X射线爆发。根据电子回旋脉泽谐波吸收峰的特性,我们计算了三个波段的二次、三次谐波的磁场强度,并采用偶极磁场模型进行分析。对于400GHz上出现的超快速吸收现象,可能是产生的三次谐波脉泽辐射,在穿过吸收区时被吸收掉了。 相似文献
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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
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本文提出了1981年4月27日日面西边缘耀斑以后的爆发环珥的H_a观测资料和分析.在这事件中,我们可以清楚地看到环的缠绕过程.从这些资料可看出环的运动与缠绕有紧密的联系.我们还观测到一些有趣的现象:在08~(h)29~(m)30~(s)和08~(h)33~(m)UT时在环顶(其高度约为2.6×10~4公里)分别出现持续时间约为1分钟的奇特的“吸收结构”,同时观测到3厘米波段的射电辐射强度相应有例外的下降,而8毫米和10厘米波段的射电辐射强度无此变化. 相似文献
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Many solar microwave bursts presenting fine structures were recorded at high temporal resolution (8 ms) by the 2.6–3.8 GHz
spectrometer of National Astronomical Observatories of China (NAOC). Here we present data that were recorded on 15 April 1998.
After data processing, more than one hundred spikes were detected in the interval 07:59:29.622–07:59:50.362 UT. Some of the
spikes were single, while others were grouped in clusters. We report the observational characteristics including lifetime,
frequency bandwidth, drift rate and polarization degree, as well as duration of spike clusters. Afterwards we discuss the
difference between the lifetime of the spikes presented here (near 3 GHz) and those reported formerly at frequency up to 1 GHz,
the probable source density and dimension, the brightness temperature and some other characteristics. 相似文献
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Hari Om Vats M. R. Deshpande O. P. N. Calla N. M. Vadher B. M. Darji V. Sukumaran 《Earth, Moon, and Planets》1996,75(2):127-133
In this article we report the peculiar oscillations in the intensity of microwave (4.15 GHz) emission seen during the impact of K fragment of comet Shoemaker-Levy 9 on July 19, 1994. The oscillations begin at 10h 13m 25s UT suddenly with a frequency of ~0.3 Hz and gradually the frequency of these oscillations increases to ~ 1 Hz. The oscillations are not due to local atmosphere or the radio interference from signals of geostationary satellite. They are intrinsic to the microwave emission from Jupiter during the impact of K fragment. Peak-to-peak amplitude of the oscillations is about 34% of the total microwave emission from Jupiter. If we assume that only 50% of the microwave emission is non-thermal and only the non-thermal emission suffered oscillations, then the oscillations are about 68% of the non-thermal emission from Jupiter. The observations also indicate that there are three continuum enhancements during this event and periodic oscillations almost all through. The third enhancement was the largest and during this enhancement there were some additional aperiodic variations. The aperiodic variations were of the order of few minutes and were possibly generated by the gravity waves. The periodic oscillations could be synchrotron emission modulated by the plasma oscillation in the outer magnetosphere. kg]Key words 相似文献
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Cheng-Ming Tan Qi-Jun Fu Yi-Hua Yan Yu-Ying Liu National Astronomical Observatories Chinese Academy of Sciences Beijing 《中国天文和天体物理学报》2004,4(3):205-208
A series of solar radio bursts were observed in AR NOAA 10486 withthe Solar Broadband (1.1--7.6 GHz) Radio Spectrometers (SBRS of China). Here weanalyze four significant events associated with CME events and strong X-ray flaresthat occurred on 2003 October 22, 26, 27, 29. The Oct. 26 event is a long durationevent (LDE) with drift pulsation structure (DPS), narrowband dm-burst (DCIM),and more than seven types of Fine Structures (FSs); its time of the maximum flux(07:30 UT) is about half an hour later than the X-flare (06:54 UT). 相似文献
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A solar flare occurring on 26 February, 1981 at 19:32 UT was observed simultaneously in hard X-rays and microwaves with a time resolution of a fraction of a second. The X-ray observations were made with the Hard X-ray Monitor on Hinotori, and the microwave observations were made at 22 GHz with the 13.7 m Itapetinga mm-wave antenna. Timing accuracy was restricted to 62.5 ms, the best time resolution obtained in hard X-rays for this burst. We find that: (a) all 22 GHz flux structures were delayed by 0.2–0.9 s relative to similar structures in hard X-rays throughout the burst duration; (b) different burst structures showed different delays, suggesting that they are independent of each other; (c) the time structures of the degree of polarization at 22 GHz precede the total microwave flux time structures by 0.1–0.5 s; (d) The time evolutions of time delays of microwaves with respect to hard X-rays and also the degree of microwave polarization show fluctuations with are not clearly related to any other time structures. If we take mean values for the 32 s burst duration, we find that hard X-ray emission precedes the degree of microwave polarization by 450 ms, which in turn precedes the total microwave flux by 110 ms. 相似文献
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The fundamental OH rotational transition at 2514 GHz (119.2 micrometers) has been observed in the Orion IRc2 region at a spectral resolution of 0.6 km s-1. The emission is spatially compact (< 25" FWHM) and centered near IRc2. A comparison of the observed profile with spectra of other species known to exist in the region suggests that the entire blueshifted side of the OH profile has been "self-absorbed," leaving only a redshifted emission component. In addition, there is pronounced absorption near 5 km s-1 VLSR indicative of the "hot core" source. The presence of the 119 micrometers absorption provides a straightforward explanation for the high ratio of 163/119 micrometers integrated line intensities which was previously considered anomalous. 相似文献
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We observed the 15 August 2007 occultation of the uranian satellite Titania and the 19 August 2007 occultation of Ariel by Umbriel using the Agile high-speed photometer on the APO 3.5 m telescope. We find that the Titania event midpoint occurred at 09:16:39.20 UT and the Ariel event midpoint at 07:59:49.4 UT, which was 26.2 s and 37.4 s later than predicted, respectively. Our best fit impact parameter was 71.0 km for the Titania occultation and 476.9 km for the Ariel event, both of which were less than predicted. 相似文献
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Abstract— The Salem, Oregon meteorite fall of 1:05 a.m. (07:05 GMT) May 13, 1981 (lat. 44°58′45″N., long. 123°58′10″W) was heard by two observers. A 22.2 g fragment was recovered immediately from a total recovery of 61.4 g from a single individual. No other fall related phenomena were observed. It is a heavily fusion-crusted, shock-veined, L6 chondrite. 相似文献
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Liu Rui-yuan Hu Hong-qiao Liu Yong-hua Xu Zhong-hua Sato N. Fraser B.J. 《Solar physics》2001,204(1-2):305-313
Simultaneous observations at Zhongshan Station, Antarctica, are presented for the interval of 13–17 July 2000 to show responses
of the polar ionosphere to the Bastille Day (14 July 2000) solar event. The polar ionosphere was highly disturbed, as shown
by frequently large deviations of the geomagnetic H-component, large riometer absorption events and strong ULF waves. Associated
with the huge solar proton event produced by the X5/3B flare, a polar cap absorption (PCA) was observed. It began at ∼ 10:40 UT
on 14 July and ended at ∼ 19:40 UT on 17 July. Superposed on it, there was a large absorption event with a peak of 26 dB,
starting at ∼ 03:00 UT and ending at ∼ 11:10 UT on 15 July. This kind of absorption was probably produced by an intense `cloud
of energetic electrons' during an auroral substorm. The ULF waves were very intense during the main phase and the recovery
phase of the severe magnetic storm on 15 and 16 July. The ionospheric absorption was so strong that the digisonde signal was
blacked out most of the time. The ionosphere returned to normal in the afternoon on 17 July. 相似文献
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Meteoroids always posed a great hazard to spacecraft security. A meteoroids stream assembled by a large massive body will further enhance the hazard severalfold. For example, the radiant of Northern Taurids (NTA) will be occulted by the Moon on Nov. 12, 2011. Since the gravitational lensing effect of massive bodies can gather together the orbits of meteoroids, the observable flux of meteoroids will increase. In this paper a set of numerical methods was built to discuss the observational effect of this kind of phenomena. The ZHR of NTA is generally small. But it can be local strong on the Earth by the lunar gravitational assembling. The calculated result suggests that a ten times stronger than normal NTA will appear in the sea area of Tristan da Cunha islands during 00h45m UT to 02h00m UT on Nov. 12, 2011. 相似文献
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P. Jenniskens K. de Kleer J.M. Trigo-Rodríguez R. Haas K. Miskotte C. Johannink J. van 't Leven M. Koop 《Icarus》2008,196(1):171-183
In 2006, Earth encountered a trail of dust left by Comet 55P/Tempel-Tuttle two revolutions ago, in A.D. 1932. The resulting Leonid shower outburst was observed by low light level cameras from locations in Spain. The outburst peaked on 2006 Nov. 19d 04h39m ± 3m UT (predicted: 19d 04h50m ± 15m UT), with a FWHM of 43 ± 10 min (predicted: 38 min), at a peak rate of ZHR=80±10/h (predicted: 50-200 per hour). A low level background of older and brighter Filament Leonids (χ∼2.1) was also present, which dominated rates for Leonids brighter than magnitude +4. The 1932-dust outburst was detected among Leonids of +0 magnitude and brighter. These outburst Leonids were much brighter than expected, with a magnitude distribution index χ=2.60±0.15 (predicted: χ=3.47 and up). Trajectories and orbits of 24 meteors were calculated, most of which are part of the Filament component. Those that were identified as 1932-dust grains penetrated just as deep as Leonids in past encounters. We conclude that larger meteoroids than expected were present in the tail of the 1932-dust trail and meteoroids did not end up there because of low density. We also find that the radiant position of meteors in the Filament component scatter in a circle with radius 0.39°, which is wider than in 1998, when the diameter was 0.09°. This supports the hypothesis that the Filament component consists of meteoroids in mean-motion resonances. 相似文献