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利用云南天文台声光频谱仪在1991年3月记录到的太阳射电米波辐射事件、光学活动及相关事件作了分析,得到来自6538活动区太阳射电米波事件的一些基本特征。 相似文献
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在本文中,我们对米波太阳射电爆发的观测和研究(Spikes以及各类爆发)进行了较全面的总结,对Spikes、米波射电爆发及基和太阳耀斑、CME(日冕物质抛射)的相互关系也给出了比较详细的讨论关加以概括;针对米波射电的未来观测和研究、米波Spikes与广泛的其它太阳耀斑现象的米波射电爆发才耀斑及CME的关系和米波射电辐射的理论问题,在理论和观测两方面提出了未来工作的设想和建议。主要观战和结论有: 相似文献
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根据1991年6月15日发生的微波、分米波、米波、十米波等波段内射电爆发以及质子事件,地磁暴等进行了分析研究,认为产生各种物理过程的有效机制和动因是日冕物质抛射而非太阳耀斑。 相似文献
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本文概述了太阳射电天文学的历史,从早期的失败到1942年Hey对太阳射电波的偶然发现为止.文中讨论了太阳射电研究在米波-十米波、千米-百米波和厘米波所取得的主要进展。同时讨论了与射电爆发共生的耀斑的观测以及用等离子体辐射和回旋同步加速辐射对这些观测所作的解释。从空间对与Ⅲ型爆发有关的等离子振荡和一维电子速度分布的测量,业已证实了用等离子体辐射对观测所作的解释。Ⅲ型爆发的米波-十米波射电日像仪测量和千米-百米波的飞船测量表明,Ⅲ型电子束流是沿着浓密的日冕流和沿着阿基米德螺旋轨道运动的。在厘米波段利用角秒分辨率的大天线阵对活动区和射电爆发所作的高空间分辨率观测,表明了它在观测日冕磁场、了解冕环的物理性质、测量耀斑附近磁场结构,从而在研究太阳耀斑起源方面有着巨大的威力. 相似文献
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本文简要回顾了太阳射电米波爆发中尖峰事件的研究现状。对与之相关的一些内容作了介绍,同时,我们也提出了研究设想和展望 相似文献
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本文统计了1990年1月至8月S.G,D〔15〕发表的8800MHz太阳射电辐射事件、Hα耀斑和软X射线事件。8800MHz射电事件与耀斑相关率达83.1%,文章还给出了云南天文台米波射电事件与Hα耀斑的统计相关结果,并于Boulder的结果作了比较,详细分折了它们之间的关系。 相似文献
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利用云南天文台声光频谱仪观测到的一次特殊的太阳射电米波爆发,与对应的光学活动及相关事件,我们探讨了1991年6月7日的日冕物质喷射 过程。 相似文献
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Derck P. Smits 《Astrophysics and Space Science》2002,282(1):227-234
Total solar eclipses are rare events, but the publicity surrounding them is generating a lot of interest. These events can
be used to popularize astronomy and promote science awareness. The internet is gaining popularity as a medium to view eclipses
remotely as is evidenced by the number of websites devoted to the 2001 solar eclipse. More internet webcasts are needed to
meet the demand that these events generate. The attempt by a team from the Astronomy Department at the University of South
Africa to broadcast a streaming video of the 21 June 2001 total eclipse from Lusaka on the internet are described. All the
necessary equipment is commercially available. Lessons learnt from this eclipse can be used to prepare for future events.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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RATAN-600 multiwavelength observations of the Sun reveal sharp spectral inhomogeneities in the polarized radiation from active regions that produce intense flares. These events occur in a wide range of radio fluxes (0.05–10 s.f.u.) in a relatively narrow wavelength range (2–5 cm). They are detected on time scales from several hours to several days before and during an intense flare. We analyze the detected events and their relationship to the preliminary phase of intense flares. Significant statistical material was obtained in 2001. The new flare-plasma properties can be used to test existing solar-flare models and to develop new criteria of flaring activity. 相似文献
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本文利用佘山观象台和江苏省气象局南京气象站所测的近50 年来的太阳全辐射热地面观测资料,进行了分析研究。将这些数据与同期的太阳质子事件资料相对比,分段求出它们之间的相关系数,结果表明:强质子事件的峰值往往对应太阳辐射热的谷值,而且在太阳活动周的不同阶段具有不同的相关性。对此作了简单的解释和讨论。 相似文献
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Via the three physical quantities (i.e., the maximal horizontal gradient of longitudinal magnetic field |ΔhBz|m, the length of neutral line with a large gradient L, and the number of isolated singular points η), which are used to represent the characteristics of the complexity and non-potentiality of the photospheric magnetic fields in solar active regions, a model of the shortterm forecast of proton events is built. The effectivity of the short-term forecast of proton events by means of the characteristic physical quantities of magnetic fields is verified. In the nowadays commonly used models of short-term forecast of solar proton events, until present the characteristic physical quantituieas of magnetic fields are not formally taken to be the factors of forecast. Because the solar proton events are low probability events, the physical mechanism of their occurrence is still not well understood. In the models of their prediction, the problems of high rates of false alarm or low rates of right alarm often exist. In this paper the traditional factors used in the existing models of forecast of proton events and the characteristic physical quantities of magnetic fields are combined together. By using the method of neural network, a more effective method of the short-term prediction of proton events is established. With the 1871 sample data in 1997-2001, we have set up Model A with the traditional forecast factors as the input layer, and also Model B with the traditional forecast factors plus the characteristic physical quantities of magnetic fields as the input layer. Via the set of 973 sample data of the years 2002 and 2003, we have carried out a simulative forecast, and found that under the condition that these two models possess the same rate of accuracy in the forecast of proton events, the rate of false alarm of Model B becomes evidently lower. This has further verified the effectiveness of the characteristic physical quantities of magnetic fields in shortterm prediction. Furthermore, this may improve the actual ability of forecast of solar proton events. 相似文献
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For infinitesimal, homologous perturbations, stability analysis has found the solar radiative interior thermally stable. It is considered for the first time here whether stability is preserved when finite amplitude nonhomologous perturbations are present. We argue that local heated regions may develop in the solar core due to magnetic instabilities. Simple numerical estimations are derived for the timescales of the decay of these events and, when heated bubbles are generated that rise towards the surface, of their rising motion. These estimations suggest that the solar core is in a metastable state. For more detailed analysis, we developed a numerical code to solve the differential equation system. Our calculations determined the conditions of metastability and the evolution of timescales. We obtained two principal results. One of them shows that small amplitude heating events (with energy surplus Qo < 1026 ergs) contribute to subtle but long-lifetime heat waves and give the solar interior a persistently oscillating character. Interestingly, the slow decay of heat waves may make their accumulation possible and so their overlapping may contribute to the development of an intermittent, individual, local process of bubble generation, which may also be generated directly by stronger (Qo > 1026 ergs) heating events. Our second principal result is that for heated regions with ΔT/T ≥ 10−4 and radius 105–106cm, the generated bubbles may travel distances larger than their linear size. We point out to some possible observable consequences of the obtained results. 相似文献
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L. V. Didkovsky D. L. Judge A. R. Jones E. J. Rhodes J. B. Gurman 《Astronomische Nachrichten》2006,327(4):314-320
An indirect proton flux measuring tool based on discrimination of the energy deposited by protons in 128 × 128 pixel EIT CCD areas outside the solar disk images is presented. Single pixel intensity events are converted into proton incident energy flux using modeled energy deposition curves for angles of incidence ±60° in four EIT spatial areas with different proton stopping power. The extracted proton flux is corrected for both the loss of one‐pixel events in the range of angles of incidence as well as for the contribution to the single pixel events resulting from scattered middle‐energy protons (low‐energy or high‐energy particles are stopped by the EIT components or pass through them, accordingly). A simple geometrical approach was found and applied to correct for a non‐unique relation between the proton‐associated CCD output signal and the incident proton energy. With this geometrical approximation four unique proton incident energy ranges were determined as 45–49, 145–154, 297–335, and 390–440 MeV. The indirect proton flux measuring tool has been tested by comparing Solar Energetic Particles (SEP) flux temporal profiles extracted from the EIT CCD frames and downloaded from the GOES database for the Bastille Day (BD) of 2000 July 14 and the more recent 2005 January 20 events. The SEP flux temporal profiles and proton spectra extracted from the EIT in the relatively narrow energy ranges between 45 and 440 MeV reported here are consistent with the related GOES profiles. The four additional EIT extracted ranges provide higher energy resolution of the SEP data. (© 2006 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
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周爱华 《中国天文和天体物理学报》1994,(3)
本文根据1980年2月至1989年11月期间SMM卫星的硬X射线(HXR)暴观测和GOES卫星的行星际质子积分流量观测,证认出48个共同样品,统计发现HXR暴的寿命Td(s)、峰值记数率Fx(c/s)和爆发期间发射的总光子数c的对数值,与行星际质子积分流量(被归一到耀斑本地)值Fp的对数值之间,均具有特别显著的线性关系,其中以logFp与logC的线性关系为最好,其拟合方程是logFp(>10MeV)=一0.604+0.538logC,相关系数r为0.70,相对标准误差为0.28.文中对质子积分流量的预测精度也作了讨论,并给出了置信区间。 相似文献
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The most rapid and dramatic evolution in the solar corona occurs in events now known as Coronal Mass Ejections (CMEs). There have considerable importance for our understanding of the evolution of the mass and energy injected into the interplanetary medium. In this work, we have studied the relation of CMEs with geomagnetic activity for the period of 1988 to 1993. Not all CMEs are capable of producing geomagnetic disturbances. Our study indicates that the maximum chance of a geomagnetic disturbance occurs two to three days after a CME in association with B-type solar flares. 相似文献
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We briefly discuss the observed features including the high flux density, short duration, narrow emission band, fast frequency drift, quasi-periodic oscillation and fast variation of polarized components, of 51 spike emission events observed at 2545/2645 MHz in the solar activity peak year, 1991 January–December, and carry out correlation analysis between these events and optical flares, magnetic field intensity and configuration of flare regions, and sunspot evolution types of active regions. In view of the fact that the observed and statistical characteristics of the spike emissions are very different from those of known types of solar radio burst and known solar radio components, we think that the spike emission in the peak years is probably a new type of radio burst excited by electron cyclotron maser instability under wave-particle resonance, or a new solar radio component. 相似文献