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1.
磁层中电离层离子的研究进展 总被引:1,自引:1,他引:1
本文概要介绍了地球磁层中电离层起源的离子观测特性及理论研究概况。研究资料表明,电离层是磁层离子的一个重要来源,电离层起源的离子在磁层动力学中可起主要作用。本文还作了简要评述和展望。 相似文献
2.
根据解析求解引导中心近似的动力学方程得到的离子分布函数 ,研究了不同Kp指数条件下起源于不同电离层区域的上行O+离子通量密度沿不同经度处的磁力线的定态分布 ,并研究了上行O+离子向不同磁层区域传输的特性 .主要结果为 :( 1 )起源于向阳面极光带外侧及更低纬区的电离层离子基本上传输到向阳面磁层区 ;起源于背阳面极光带及更低纬区的电离层离子基本上传输到背阳面磁尾等离子体片区和闭合磁力线区 ;起源于极盖区及向阳面极光带内侧的电离层离子基本上传输到等离子体幔区和磁瓣区 .( 2 )上行离子主要分布在近地空间 ,其通量密度相对于地心距离呈负梯度 .( 3)地磁活动指数Kp 增高时上行离子进入磁层的概率增大 ,因而上行离子起动力学作用的地球空间范围增大 .所得结果可解释有关地顶的观测特征 ,理论估算的上行离子在磁尾的通量密度与观测结果相符合. 相似文献
3.
利用美、欧、日等国非相干散射雷达观测的离子速度,高纬地磁站链1 min分辨率H分量及多站地面电离层垂测h'F等多种资料,对高低纬电离层的磁层耦合响应进行事例分析.除常规地磁资料外,极光区两雷达站对F层离子速度的测量是考察高纬电离层对流的很有效手段.本次中强磁暴期间赤道环电流指数Dst的最小值为-136 nT,但其最大的离子速度却超过2500 m/s,双对流圈的西旋则约为30°.从此次事件中极光区两雷达站离子速度的连续观测,得出了物理上合理的电离层对流形态,此图象得到地磁站链记录的有力支持.本事例的中低纬电离层响应再次确认了磁层扰动从高纬向中低纬穿透的事实.此外,Arecibo非相干散射雷达站资料又进一步证明:在同一经度链附近,磁暴期夜间电离层垂测h'F的多站突增现象是东向扰动电场从高纬穿透到中低纬,再通过E×H垂直向上的等离子漂移,使F层底部上升的结果.本文用高、低纬台站的多种观测资料较好地分析了该典型电离层物理现象. 相似文献
4.
综合分析EISCAT雷达与卫星当地测量数据,并利用磁层磁场模式对磁力线进行追踪,研究了发生在极光椭圆朝极盖边界附近电离层中,一例反常的背离太阳流动的强等离子体对流事件,及相关的太阳风-磁层-电离层耦合过程.结果表明,磁暴期间IMFBz指向南时观测到这一反常高速对流,及其相应的等离子体性态特征,很可能是向阳侧磁层顶磁重联过程在电离层中的印记. 相似文献
5.
F-lacuna是高纬极区电离层测高仪频高图上经常出现的一种F层回波描迹部分或全部消失的现象,直接影响电离层参数的标定,其表征的电离层物理过程尚未定论.利用南极中山站测高仪频高图数据,本文统计分析了Flacuna在不同太阳风速度水平下的发生频率,主要对2012年2月15日一次F2-lacuna观测实例的粒子沉降及电离层特性进行了分析.观测特征表明,F2-lacuna发生期间,电离层电子总含量TEC明显减小,昭和站SuperDARN高频雷达观测到的中山站上空电离层Bragg后向散射增强,但对应来自磁层的电子和离子沉降并不明显.这可能是由磁层亚暴引起的极区电离层电流体系扰动,触发电离层F-B不稳定性,产生沿场向排列的小尺度不规则体,其热效应导致F2层密度减小,F2-lacuna出现. 相似文献
6.
地球等离子体层作为内磁层的重要组成部分,在空间天气过程的发生和发展过程中都起着非常重要的作用.地球等离子体层是由上行电离层粒子被地球磁力线捕获而形成的圆环状冷的等离子体区域.等离子体层的外边界称为等离子体层顶,在该区域的等离子体层密度在0.5个地球半径内下降了1~2个数量级.地球等离子体层结构的动态变化特征是空间环境扰动状态的指示器,其结构形态和动力学过程受地磁场和电场控制,而地磁场短期变化源于太阳活动引起的日地扰动.地磁暴期间等离子体层的大规模结构演化影响等离子体层中波的产生和传播,从而影响波-粒子相互作用,导致内磁层中电子和离子的空间分布发生变化,进而影响其它磁层和电离层过程.对地球等离子体层进行进一步研究,对揭示太阳风-磁层-电离层耦合过程中的质量输运和能量转移、空间天气预报等方面都具有重要的意义.本文对等离子体层和地磁活动的关系、等离子体层中的波、顶部电离层及等离子体层电子含量的变化规律和等离子体层模型等方面的研究进展进行了介绍.最后,我们还对等离子体层研究方面一些亟待解决的问题进行了展望. 相似文献
7.
本文讨论了行星际磁场B2分量变化时内磁层和中低纬度电离层的响应.指出B2变化引起的磁层大尺度对流电场的变化在一定条件下有可能透入内磁层,并沿磁力线映射到中低纬度电离层,在那里产生电场和电流体系,从而使Sq电流体系发生畸变,并在地面磁场中反映出来.数值计算表明,当△B2<0时,Sq电流体系的焦点向东和向高纬移动,地面磁场会观测到数伽马的变化.这就为中低纬地磁观测诊断磁层和太阳风状态提供了一种可能性.此外,本文还用上述物理过程解释了赤道地区一些高空物理现象,如B2倒转时电离层漂移速度的变化,赤道磁场异常以及赤道q型偶现E层的消失等等. 相似文献
8.
作为地球空间环境的重要组成部分,地磁场和电离层是地球物理研究中的重要方向.新的观测数据和处理方法为人们更加深入地认识地磁场和电离层时空变化之间的相互作用发挥了巨大的促进作用.本文利用欧洲轨道测定中心(CODE)提供的全球电离层垂直总离子浓度地图(GIM)数据和Swarm卫星的观测数据,基于数据统计的方法,对太阳平静期不同纬度地区地磁场和电离层时空变化之间的相互作用进行了分析.从地磁场对电离层时空变化的作用来看,本文利用Swarm卫星数据发现电离层电子浓度在赤道地区呈"马鞍"形分布,在高纬度地区变化剧烈,验证了因地磁场对电离层时空变化影响导致的电离层赤道异常和极盖吸收等现象的存在,同时利用GIM数据通过张量秩-2分解和主成分析发现沿地磁场方向电离层的空间变化更加迅速,体现出地磁场对电离层时空变化的约束作用.从电离层对地磁场时空变化的作用来看,基于CHAOS-5模型对地磁内源场和磁层环电流磁场的预测,本文从Swarm卫星磁测数据中分离出电离层中电流体系的磁效应,其中包括赤道电集流、中纬度地区的Sq电流体系和极区电集流的磁效应,为进一步反演电离层电流体系奠定了基础. 相似文献
9.
利用ISEE-1和ISEE-2飞船观测的磁场数据,分析了地球内磁层场向电流的统计特征,包括场向电流的空间(L值和地方时)分布;流进和流出电离层的场向电流随地方时的变化;场向电流发生率与地磁活动水平(以AL指数表征)、行星际磁场(IMF)Bz的关系,电流强度和密度随地磁活动水平的变化等.发现,场向电流大都发生在夜间,且集中在L为6-10区域内,场向电流发生率,强度和密度随地磁活动增强而增大,行星际磁场南向时的发生率远远高于北向时的发生率.这些结果表明,内磁层场向电流的产生是太阳风和磁层、电离层间电动耦合增加的结果. 相似文献
10.
本文利用DMSP F13和F15卫星观测数据,对2001—2005年58个磁暴(-472 nT≤Min.Dst≤-71 nT)期间高纬顶部电离层离子整体上行特征进行了统计研究.观测表明,磁暴期间,顶部电离层离子上行主要发生在极尖区和夜间极光椭圆区.在北半球,磁正午前,高速的离子上行(≥500 m·s-1)多集中在65° MLat以上;午后,高速离子上行区向低纬度扩展,上行速度要略高于午前;在南半球,磁午夜前,DMSP卫星在考察区域内几乎所有的纬度上都观测到了高速上行的离子;午夜后,各纬度上观测到上行离子的速度明显降低.离子上行期间,DMSP卫星在极区顶部电离层高度上也频繁地观测到电子/离子增温,且电子增温发生的频率要远高于离子增温.O+密度变化分析显示,DMSP卫星磁暴期间观测到的上行离子更多地源于顶部电离层高度.这些结果表明电子增温在驱动暴时电离层离子整体上行过程中起着重要作用. 相似文献
11.
Based on ion distribution function found from the dynamic equation, the density distribution of He+ ions originating from the polar ionosphere and up-flowing along the magnetic field line is studied during quiet and weakly disturbed geomagnetic conditions. The results show the following. (1) The ionospheric up-flowing He+ ions mainly reside in the inner magnetosphere and their density has a negative radial gradient. (2) The ionospheric up-flowing He+ ion distributions along the magnetic field line are mainly controlled by gravity and the geomagnetic field configuration. Larger the gravity, larger is the ion density. Smaller the intensity of magnetic field, smaller is the ion density. (3) If the geomagnetic activity index Kp is high, more up-flowing He+ ions will enter the magnetosphere and the region where the up-flowing ions are dominant will grow. This is consistent with observations of ionospheric up-flowing ions. Some features of the geopause can be understood based on our theoretical results. 相似文献
12.
本文对比分析了太阳活动高、低年期间高纬日侧顶部电离层离子上行随地磁活动水平的变化特征.按地磁活动水平,将DMSP卫星在太阳活动高年(2000-2002年,F13和F15)及太阳活动低年(2007-2009年,F13;2007-2010年,F15)期间的SSIES离子漂移速度观测数据分为三组:地磁平静期(Kp<3),中等地磁扰动期(3 ≤ Kp < 5)和强地磁活动期(Kp ≥ 5),分别统计分析了高纬日侧顶部电离层离子上行特征的时空分布.对比分析发现:(1)太阳活动低年期间,高纬日侧电离层离子上行发生率以及上行速度峰值均是太阳活动高年的2倍多,而离子上行通量峰值只有高年的1/6-1/4;(2)在相同太阳活动条件下,地磁活动水平对日侧电离层离子上行发生率峰值的影响并不明显,但对离子上行发生率的空间分布有着显著的控制作用:电离层离子上行高发区随地磁活动向低纬度扩展,并在强地磁活动期间呈现饱和的趋势;(3)日侧顶部电离层等离子体似乎存在两个效率相当的上行区域,一个位于极尖/极隙区纬度附近,离子可沿开放磁力线上行进入磁尾;另一个位于晨侧亚极光区附近,离子沿闭合磁力线上行,有可能进入日侧等离子体层边界层. 相似文献
13.
根据CRRES卫星上MICS离子成分探测器的观测资料以及前人有关AMPTE卫星的观测数据,研究了地磁活动和太阳活动性对环电流成分以及各种环电流离子的最大通量位置的影响. 观测表明相对于地磁平静时期,在地磁活动的活跃时期,环电流中O+、He++和He+离子的数密度和能量密度占环电流总数密度和总能量密度的份额增加,相反H+离子所占的比例却明显减少. 太阳活动极大年时环电流中H+离子丰度比极小年时低,而O+和He++离子的丰度却比太阳活动极小年时高. 卫星数据观测还表明,在地球磁暴期间,环电流中O+离子和He+离子的最大通量位置会随着地磁的活动径向移动,平均来看太阳活动极大年的能量粒子最大数密度位置距离地球比极小年时约小0.5RE (RE 为地球半径). 相似文献
14.
The changes of pressure and temperature fields in the winter lower troposphere observed in association with changes in solar and/or geomagnetic activity are compared. It is shown that the fact whether it was solar or geomagnetic activity was not so important as whether the levels of the two activities were high or low. The differences between the effects of solar/geomagnetic activity, however, are revealed, the pressure and temperature data being stratified according to the QBO phase. The relationship obtained are discussed from the viewpoint of mechanisms resting upon both the planetary wave propagation and the changes of atmospheric air currents in the global electric circuit. 相似文献
15.
The effect of solar/geomagnetic activity and QBO phase on the distribution of winds prevailing in the winter periods (January–March)
in the Northern Hemisphere at the altitude of 850 mb was studied. Analysis has shown that the zonal flow over the North Atlantic
under high geomagnetic activity intensifies and under low solar/geomagnetic activity weakens. Flow deviations, associated
with geomagnetic activity, are more marked under the QBO-east phase, and flow deviations, associated with solar activity,
are more marked under the QBO-west phase. The results reported by Venne and Dartt (1990) concerning the wind distribution
in the winter (February–March) Northern Hemisphere under high and low solar activity and a QBO-west phase, have been confirmed,
and supplemented with wind distributions under high and low geomagnetic activity. 相似文献
16.
地磁活动是太阳爆发现象引起地球近地空间磁场扰动的重要空间天气过程之一.地球磁场的变化具有多种时间尺度,其中从数十年到数世纪的长时间地磁场变化主要是由地核磁场引起的,而从数秒到数年的短时间地磁变化与太阳活动有关.近年来,越来越多的统计研究表明,地磁活动与太阳活动和地球气候变化之间存在着显著的相关性.地球磁场和地球大气系统的耦合现象驱动着人们探索地磁活动对地球天气和气候系统影响的研究.本文的目的就是综述国内外地磁变化对气候影响的研究进展,介绍我们最新的研究成果,探索地磁活动对气候要素的影响特征和可能机理过程,为深入研究地磁活动对地球天气和气候的影响提供基础和依据,以期对地磁活动和气候要素关系有进一步的认识. 相似文献
17.
An inspection of the long-term behaviour of the range of the daily geomagnetic field variation from comprehensive modelling 总被引:1,自引:0,他引:1
J. Miquel Torta Luis R. Gaya-Piqu Juan J. Curto David Altadill 《Journal of Atmospheric and Solar》2009,71(13):1497-1510
This paper attempts to reveal whether long-term trends in the ionosphere are reflected in the amplitude range of the geomagnetic daily variation recorded at ground level. The smooth and regular variation observed in the magnetograms on magnetically quiet days is induced by the ionospheric currents flowing in the dynamo region. So it is likely that trends in the conductivity or in the dynamics of this region could produce changes in the current densities, and consequently in the range of the geomagnetic variation. The crucial aspect is how to separate the changes produced by the geomagnetic activity itself, or by secular changes of the Earth's magnetic field, from the part of the variation produced by factors affecting trends in the ionosphere, which could have an anthropogenic origin. To investigate this, we synthesized for several geomagnetic observatories the daily ranges of the geomagnetic field components with a comprehensive model of the quiet-time, near-Earth magnetic field, and finally we removed the synthetic values from the observed ranges at those observatories. This comprehensive model accounts for contributions from Earth's core, lithosphere, ionosphere, magnetosphere and coupling currents, and, additionally, accounts for influences of main field and solar activity variations on the ionosphere. Therefore, any trend remaining in the residuals, assuming that all the contributions mentioned above are properly described and thus removed by the comprehensive model, should reflect the influence of other sources. Results, based on series of magnetic data from observatories worldwide distributed, are presented. Trends in the X and Z components are misleading, since the current system changes in form as well as in intensity, producing changes of the focus latitude in the course of a solar cycle and from one cycle to another. Some differences exist between the long-term trends in the Y component between the real and modelled ranges, suggesting that other non-direct solar causes to the amplitude changes of the solar quiet geomagnetic variation should not be ruled out. Nevertheless, the results also reflect some short-comings in the way that the comprehensive modelling accounts for the influence of the solar activity on the range of the daily geomagnetic variation. 相似文献
18.
电离层电导率在不同的太阳活动和地磁条件下会发生变化. 本文通过中性大气经验模式NRLMSISE_00(Neutral Atmosphere Empirical Model_2000,简称NRLMSISE_00)和电离层经验模式IRI_2001(International Reference Ionosphere_2001,简称IRI_2001)计算电离层的电子、离子碰撞频率以及电导率,并简要讨论了120 km和300 km高度上的电导率在不同季节、不同太阳活动和地磁指数下的经纬分布. 结果显示,电导率的分布与日照密切相关,且随太阳活动的变化而变化. 磁暴时电导率随地磁活动的变化相对于随太阳活动的变化要小,在120?km高度,磁暴期间电导率在低纬地区和高纬地区发生不同变化,且Pedersen电导率和Hall电导率变化趋势相反,向两极靠近,电导率变化幅度略有增长;在300?km高度上,磁暴对低纬地区和高纬地区电导率的影响要比120?km处大,Pedersen电导率和Hall电导率变化趋势相同,且越向两极靠近电导率的变化幅度越大. 相似文献
19.
H.-L. Lam 《Journal of Atmospheric and Solar》2004,66(18):2162
A study has been carried out to determine the relationship between high energy relativistic (>2 MeV) electron fluence and auroral zone geomagnetic activity for a solar cycle. Data for 1987–1997, spanning Solar Cycle 22, were used in the study. The relativistic electron fluence data were based on fluxes observed by the GOES geosynchronous satellites. The geomagnetic data were the DRX indices derived from a Canadian magnetic observatory located in the auroral zone at Fort Churchill, near the footprint of field lines passing through geostationary satellites. This work, based on data from a solar cycle, confirms earlier findings using limited data from segments of a solar cycle of enhancement in fluence 2–3 days after increases in geomagnetic activity, and shows the cycle dependence of fluence with respect to geomagnetic activity. This study underlines the influence of recurrent coronal holes on fluence level as well as the possible role of Pc5 magnetic pulsations as an electron acceleration mechanism, and highlights the predictability of fluence from ground geomagnetic data. A fluence prediction algorithm can now solely be based on derived expressions relating fluence and DRX. Thus, a simple fluence prediction scheme can easily be implemented to provide a 2–3 day advance warning of space weather conditions hazardous to geosynchronous satellites, since during days of high fluence, the likelihood of internal charging in a satellite is high, with possible discharges that could result in satellite operational anomalies. For verification purpose, daily values of fluence for 1997–2000 and for January 1994 were postcast using the derived expressions. The postcast values were validated, and the results give credence to the fluence prediction scheme. 相似文献