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171.
172.
卫生捕获太阳的新方法 总被引:2,自引:1,他引:2
对卫星入轨后捕获太阳的方法进行了研究,并对一种有效的控制规律进行了分析计算,最后对卫星的运动过程进行了仿真验证。 相似文献
173.
江泽民同志提出的“三个代表”的重要思想,是站在世纪之交的时代高度,总揽全局,对我党近80年历史经验和50年执政经验的总结,提出了加强执政党自身建设的新思路,创造性地发展了马克思主义党建理论与学说,具有鲜明的时代特点。本文就“三个代表”思想所体现的时代特点进行了初步的探讨,论证了其内在逻辑上的统一性,指出了“三个代表”思想必将成为新世纪党建理论的强大思想武器和伟大旗帜。 相似文献
174.
开环全保偏光纤陀螺结构简单,有使用价值;进入90年代国外研究成功熔接型保偏光纤耦合器以后,这种陀螺更受重视,向实用方向发展,对研究全保偏光纤陀螺中的几个关键问题,光路中元器件的特性;保偏光纤的对轴熔接技术,零漂和噪声做了分析,实验结果表明,零漂达到1.24°/h。 相似文献
175.
D. Beliu-Ionescu A.-C. Donea C. Lindsey P. Cally G. Mari 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2007,40(12):1921-1925
Some flares are known to drive seismic transients into the solar interior. The effects of these seismic transients are seen in helioseismic observations of the Sun’s surface thousands of km from their sources in the hour succeeding the impulsive phase of the flare. Energetic particles impinging from the corona into the chromosphere are known to drive strong, downward-propagating shocks in active region chromospheres during the impulsive phases of flares. H observations have served as an important diagnostic of these shocks, showing intense emission with characteristic transient redshifts. In most flares no detectable transients penetrate beneath the active region photosphere. In those that do, there is a strong correlation between compact white-light emission and the signature of seismic emission. This study introduces the first known H observations of acoustically active flares, centered in the core of the line. The morphology of line-core emission H in the impulsive phase of the flare is similar to that of co-spatial line-core emission in NaD1, encompassing the site of seismic emission but more extended. The latter shows a compact red shift in the region of seismic emission, but a similar feature is known to appear in a conjugate magnetic footpoint from which no seismic emission emanates. Radiative MHD modelling based on the profiles of chromospheric line emission during the impulsive phases of flares can contribute significantly to our understanding of the mechanics of flare acoustic emission penetrating into the solar interior and the conditions under which it occurs. 相似文献
176.
T.S. Kiss N. Gyenge R. Erdélyi 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(2):611-616
Jets, whatever small (e.g. spicules) or large (e.g. macrospicules) their size, may play a key role in momentum and energy transport from photosphere to chromosphere and at least to the low corona. Here, we investigate the properties of abundant, large-scale dynamic jets observable in the solar atmosphere: the macrospicules (MS). These jets are observationally more distinct phenomena than their little, and perhaps more ubiquitous, cousins, the spicules. Investigation of long-term variation of the properties of macrospicules may help to a better understanding of their underlying physics of generation and role in coronal heating. Taking advantage of the high temporal and spatial resolution of the Solar Dynamics Observatory, a new dataset, with several hundreds of macrospicules, was constructed encompassing a period of observations over six years. Here, we analyse the measured properties and relations between these properties of macrospicules as function of time during the observed time interval. We found that cross-correlations of several of these macrospicule properties display a strong oscillatory pattern. Next, wavelet analysis is used to provide more detailed information about the temporal behaviour of the various properties of MS. For coronal hole macrospicules, a significant peak is found at around 2-year period. This peak also exists partially or is shifted to longer period, in the case of quiet Sun macrospicules. These observed findings may be rooted in the underlying mechanism generating the solar magnetic field, i.e. the global solar dynamo. 相似文献
177.
Hiroya Yamaguchi Midori Ozawa Takao Ohnishi 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
We report the discovery of recombining plasmas in three supernova remnants (SNRs) with the Suzaku X-ray astronomy satellite. During SNR’s evolution, the expanding supernova ejecta and the ambient matter are compressed and heated by the reverse and forward shocks to form an X-ray emitting hot plasma. Since ionization proceeds slowly compared to shock heating, most young or middle-aged SNRs have ionizing (underionized) plasmas. Owing to high sensitivity of Suzaku, however, we have detected radiative recombination continua (RRCs) from the SNRs IC 443, W49B, and G359.1–0.5. The presence of the strong RRC is the definitive evidence that the plasma is recombining (overionized). As a possible origin of the overionization, an interaction between the ejecta and dense circumstellar matter is proposed; the highly ionized gas was made at the initial phase of the SNR evolution in dense regions, and subsequent rapid adiabatic expansion caused sudden cooling of the electrons. The analysis on the full X-ray band spectrum of IC 443, which is newly presented in this paper, provides a consistent picture with this scenario. We also comment on the implications from the fact that all the SNRs having recombining plasmas are correlated with the mixed-morphology class. 相似文献
178.
The ISO-SWS instrument offering a large wavelength coverage and a resolution well adapted to the solid phase has changed our
knowledge of the physical-chemical properties of ices in space. The discovery of many new ice features was reported and the
comparison with dedicated laboratory experiments allowed the determination of more accurate abundances of major ice components.
The presence of CO2 ice has recently been confirmed with the SWS (Short Wavelength Spectrometer) as a dominant ice component of interstellar
grain mantles. The bending mode of CO2 ice shows a particular triple-peak structure which provides first evidence for extensive ice segregation in the line-of-sight
toward massive protostars. A comparison of interstellar and cometary ices using recent ISO data and ground-based measurements
has revealed important similarities but also indicated that comets contain, beside pristine interstellar material, admixtures
of processed material. The investigation of molecules in interstellar clouds is essential to reveal the link between dust
in the interstellar medium and in the Solar System.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
179.
J.L. Ballester 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
The presence of small-amplitude oscillations in prominences is well-known from long time ago. These oscillations, whose exciters are still unknown, seem to be of local nature and are interpreted in terms of magnetohydrodynamic (MHD) waves. During last years, observational evidence about the damping of these oscillations has grown and several mechanisms able to damp these oscillations have been the subject of intense theoretical modelling. Among them, the most efficient seem to be radiative cooling and ion-neutral collisions. Radiative cooling is able to damp slow MHD waves efficiently, while ion-neutral collisions, in partially ionised plasmas like those of solar prominences, can also damp fast MHD waves. In this paper, we plan to summarize our current knowledge about the time and spatial damping of small-amplitude oscillations in prominences. 相似文献
180.
N. Bucciantini 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008,41(3):491-502
In the last few years, new observations by CHANDRA and XMM have shown that Pulsar Wind Nebulae present complex but similar inner features, with the presence of axisymmetric rings and jets, which are generally referred to as a jet-torus structure. Due to the rapid growth in accuracy and robustness of numerical schemes for relativistic fluid-dynamics, it is now possible to model the flow and magnetic structure of the relativistic plasma responsible for the emission. Recent results have clarified how the jet and rings are formed, suggesting that the morphology is strongly related to the wind properties, so that, in principle, it is possible to infer the conditions in the unshocked wind from the nebular emission. I will review here the current status in the modeling of Pulsar Wind Nebulae, and, in particular, how numerical simulations have increased our understanding of the flow structure, observed emission, polarization and spectral properties. I will also point to possible future developments of the present models. 相似文献