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1.
本文研究了0.1~10 Hz频率范围内的ULF波从磁层到地面的传播,得到了解析解,分析了电离层Alfven谐振器、磁倾角、电离层电导率、以及波频率对地面观测到的地磁信号的影响.数值结果表明:在磁层中剪切波在竖直方向有明显的谐振结构;地面观测到的信号在IAR谐振频率出现极大值,其谐振频率随磁倾角的增大而增大;电离层电导率的变化可以改变IAR的谐振频率,并能改变波的透射,从而影响地面地磁信号的频谱. 相似文献
2.
本文利用分层(磁层、电离层、大气层)模型,分析了电离层电导率以及磁场方向对电离层Alfven谐振(简称IAR)反馈不稳定性的影响.结果表明:倾斜磁场可以有效改变IAR的参数(谐振频率与增长率),进而改变IAR反馈不稳定性的性能,磁场方向向上时,在电离层电导率较大且不考虑Hall电导率的情况下,磁场倾斜角的减小有利于电离层不稳定性的形成,电离层Hall电导率可以增大IAR反馈不稳定性的增长率,且对于较大的倾角增长率提升较大. 相似文献
3.
地震瑞利波在沿地表传输时衰减很慢,其能量在远离震中的区域仍然能够激发大气和电离层扰动.本文利用中国境内的GPS接收机网络观测电离层总电子含量(total electron content,TEC),分析了 2011年日本地震后在中国区域上空产生的电离层扰动.研究发现,瑞利波的能量从地面经大气耦合传输到电离层高度,导致在中国区域上空电离层出现与瑞利波传播同步的TEC扰动.利用中东部的稠密接收机网络,还揭示了扰动的大尺度二维空间结构:瑞利波经过后产生的TEC扰动呈条带状,在中纬度地区沿西北—东南方向排列,而在低纬度大致为东西方向.条带的转向可能与地磁场作用下的中性-离子耦合过程有关,大气波动导致的等离子扰动倾向于沿磁力线方向(向南)传播,从而形成垂直磁力线方向(东西)的波前结构.这是首次在远离震中的区域使用GPS站网研究地震波耦合电离层扰动的大尺度二维空间结构. 相似文献
4.
太阳活动低年夏季,低纬电离层F区场向不规则体表现出与太阳活动高年和其他季节明显不同的特征.本文利用我国三亚站(18.4°N,109.6°E,地磁倾角纬度dip latitude 12.8°N)VHF雷达、电离层测高仪、GPS闪烁监测仪和美国C/NOFS卫星观测数据,研究了太阳活动低年夏季我国低纬电离层F区场向不规则体的基本特征.分析发现无论磁静日还是磁扰日,夏季电离层F区不规则体回波主要出现于地方时午夜以后,回波出现的时间较短,高度范围较小,伴随着扩展F出现,但没有同时段的L波段电离层闪烁.太阳活动低年夏季午夜后的低纬电离层F区不规则体回波,可能并不总是与赤道等离子体泡沿磁力线向低纬地区的延伸相关,而可能由本地Es等扰动过程引起. 相似文献
5.
《地球物理学进展》2020,(3)
基于2014年至2017年SWARM三颗卫星四年的磁场观测数据,我们挑选出Pc3压缩波事件,研究了顶部电离层Pc3压缩波活动强度的磁纬-磁地方时分布、随磁地方时变化的季节特征以及地理经纬度分布,并进一步分析了Pc3压缩波发生频次的分布特征.结果表明,中高纬和低纬的Pc3压缩波可能存在不同的激发机制.中高纬地区的扰动强度随高度衰减,且高纬地区几乎所有地方时都可以观测到Pc3压缩波,可能主要是由入射的阿尔芬波与电离层相互作用产生;而低纬地区扰动强度没有明显的高度依赖性且主要发生日侧,可能主要是上游波以快模波的形式直接传播到电离层所致.同时,该研究结果给出了入射阿尔芬波和电离层相互作用耦合产生Pc3压缩波理论模型的观测证据. 相似文献
6.
电离层不规则结构的形成和演化与电离层等离子体不稳定性密切相关 .长期以来 ,在中低纬区扩展 -F现象的研究中 ,没有考虑电离层上下层结之间的相互作用 .本文从理论上全面探讨了在中纬度地区 ,E区可变的Pedersen电导率和Hall电导率 ,与F区可变的Pedersen电导率的共同作用对F区梯度漂移不稳定性的影响 ,导出了存在这种耦合时电离层梯度漂移不稳定性的统一表达式 .这一耦合理论不但解释了实际观测中发现的 ,在某些地方电离层F区顶部的不稳定性发生率要高于F区底部这一现象 ;同时还表明 ,电离层E区与F区的耦合对F区夜晚梯度漂移不稳定性的形成不仅会有阻碍作用 ,同时还使得中、低纬度地区的扰动增长具有了方向的选择性 .该理论的一个重要结论是 ,F区中某一地区能否发展出梯度漂移不稳定性 ,并不完全由当地电离层F区的状态决定 ,同一根磁力线连接的、位于不同纬度地区的E区层结对其发展和演化也会有相当大的影响 . 相似文献
7.
太阳活动低年夏季,低纬电离层F区场向不规则体表现出与太阳活动高年和其他季节明显不同的特征.本文利用我国三亚站(18.4°N,109.6°E,地磁倾角纬度dip latitude 12.8°N)VHF雷达、电离层测高仪、GPS闪烁监测仪和美国C/NOFS卫星观测数据,研究了太阳活动低年夏季我国低纬电离层F区场向不规则体的基本特征.分析发现无论磁静日还是磁扰日,夏季电离层F区不规则体回波主要出现于地方时午夜以后,回波出现的时间较短,高度范围较小,伴随着扩展F出现,但没有同时段的L波段电离层闪烁.太阳活动低年夏季午夜后的低纬电离层F区不规则体回波,可能并不总是与赤道等离子体泡沿磁力线向低纬地区的延伸相关,而可能由本地Es等扰动过程引起. 相似文献
8.
电离层人工调制可以激发甚低频(VLF)波,其中向上传播进入磁层的VLF波,不但能够用来研究磁层中的各种物理现象,且具有人工沉降高能粒子,消除辐射带等实际用途.本文使用射线追踪方法,模拟电离层调制激发的VLF波在磁层的传播路径,分析激发纬度和调制频率对传播路径和传播特性的影响;并基于低频波的色散方程和波粒共振条件,分析VLF波传播路径上与磁层高能粒子的最低共振能及其分布.研究表明,VLF波通过在磁层来回反射向更高的L-shell传播,最终稳定在某一L-shell附近.以较低的调制频率或者从较高的纬度激发的VLF波能够传播到更高的L-shell,但是,当激发纬度过高时,低频波也可能不发生磁层反射而直接进入电离层和大气层.低频波在磁层的传播过程中,在较高的纬度或者较低的L-shell能够与较高能量的电子发生共振相互作用,在较高的L-shell并且低纬地区,能够与较低能量的电子发生共振相互作用.共振谐数越高,能发生波粒共振的电子能量越高. 相似文献
9.
本文提出一个模型,通过此模型得到土星千米波辐射源(Saturn's Kilometric Radiation Source)的分布.这个模型就是:磁层顶的开尔文-亥姆霍兹不稳定性(Kelvin Helmholtz Instability)会导致阿尔芬波沿着弯曲的磁力线传播到土星极区附近,并在这个过程中使土星电离层附近(1Rs高度,Rs为土星半径)的粒子加速沉降,发生回旋不稳定性(Cyclotron Maser Instability),进而产生R-X模式辐射的非寻常波(Extraordinary wave).我们认为,极区发生回旋不稳定性的区域就是土星千米波辐射源的区域.本文求出了磁层顶附近开尔文-亥姆霍兹不稳定性发生在土星本地时(Saturn's Local Time)11 LT以前,得出了阿尔芬波沿磁力线传播到土星需要约383 min,求解出向阳面磁力线弯曲了约80°,最后得出土星千米波辐射源分布从黎明段的7~9 LT延伸到傍晚段的18 LT,并且黎明段分布的纬度比傍晚段低. 相似文献
10.
本文采用国际地磁参考场(1980 IGRF,n=8)低纬磁力线经验公式和模式电离层,结合海南岛三亚(18.24°N,109.5°E;磁纬7.04°N)观测到的哨声资料,对磁纬10°N以下哨声的路径纬度和临界截止纬度进行了分析和讨论. 相似文献
11.
提出一个剪切Alfven波加速极光粒子的新模式。频率远小于离子回旋频率的Alfven波由磁层向电离层传播会演化成孤波,当场向电流超过离子声不稳定性的临界电流时,激发离子声不稳定性,波与粒子的相互作用产生反常阻尼使Alfven波演化成行波涌浪。它携带一个方向向上的平行电场,加速极光电子形成分立极光。对等离子体密度、电场及其对应的电势进行了数值计算,结果发现满足磁层加速区条件形成Alfvn行波涌浪,提供足够强的加速粒子的电场。 相似文献
12.
Prikner K. Mursula K. Kangas J. Feygin F. Z. Kerttula R. 《Studia Geophysica et Geodaetica》2002,46(3):507-526
The ionospheric Alfvén resonator (IAR) was numerically simulated under non-stationary ionospheric and magnetospheric conditions of the IPDP event of December 4, 1986. The full numerical wave method was applied using height profiles of the ionospheric plasma parameters obtained from the Scandinavian EISCAT radar measurements close to the Ivalo latitude. An attempt to model the inverse problem of numerical simulation—prolongation of the electron density profiles at altitudes above the ionospheric F layer—was made on the basis of the IAR simulation in correlation with the IPDP frequency increase. The change of the IAR wave characteristics during the substorm was illustrated by height profiles of the total wave amplitude and various polarization characteristics, taking into consideration the ordinary L-mode and the extraordinary R-mode waves for parallel and non-parallel incidence with respect to the magnetic field line. 相似文献
13.
本文通过MHD理论研究了细磁流通管在二维静止平衡介质中的运动.用地球磁尾中的一维细丝来表示流通管,通过数值模拟可以得到细丝随时间变化的一些性质.重联产生的细丝磁场比周围磁场偶极性更强,运动时表现出了很强的地向流.结果还显示了阿尔芬波、慢激波等MHD波从磁层的赤道面传播到地球电离层上并部分地反射回来.细丝在电离层上的足点的赤道向运动滞后于赤道面上的地向运动.虽然在模拟中细丝的初始等离子体压强低于周围压强,但是当它开始迅速向地球方向运动时,它的等离子体压强很快上升到与周围压强相当,甚至有时候大于周围压强的值. 相似文献
14.
利用全波解算法模拟哨声波束在甚低纬地区黎明前低电离层透射的三维能量分布,依据波场能量和偏振分布及其对波参量和电子浓度剖面的依赖特征,分析了哨声透射、反射及与大地-电离层波导耦合过程.结果表明,哨声模波存在于90km以上高度,吸收、反射、波束扩展及波模转换主要发生于电离层底部80-90km区间;到达地面的透射能量密度衰减20dB以上,透射衰减随频率变化不大,但随波入射角呈不对称变化;距透射区150km以外区域的测向方位角有很大偏差;入射波能量的很少一部分(对5kHz约为-25dB)被反射并激发起哨声模波,反射波束能量集中于入射波束附近,并随频率下降而迅速增强.计算也表明,地面接收到的甚低纬哨声回波可能与使回波向极侧偏移的电离纬向梯度有关. 相似文献
15.
Abstract We study the nonlinear stability of MHD waves propagating in a two-dimensional, compressible, highly magnetized, viscous plasma. These waves are driven by a weak, shear body force which could be imposed by large scale internal fluctuations present in the solar atmosphere. The effects of anisotropic viscosity (leading to a cubic damping) and of the nonlinear coupling of the Alfven and the magnetoacoustic waves are analysed using Galerkin and multiple-scale analysis: the MHD equations are reduced to a set of nonlinear ordinary differential equations which is then suitably truncated to give a model dynamical system, representing the interaction of two complex Galerkin modes. For propagation oblique to the background magnetic field, analytical integration shows that the low-wavenumber mode is physically unstable. For propagation parallel to the background magnetic field the high-wavenumber wave can undergo saddlenode bifurcations, in way that is similar to the van der Pol oscillator; these bifurcations lead to the appearance of a hysteresis cycle. A numerical integration of the dynamical system shows that a sequence of Hopf bifurcations takes place as the Reynolds number is increased, up to the onset of nonperiodic behaviour. It also shows that energy can be transferred from the low- wavenumber to the high-wavenumber mode. 相似文献
16.
《Journal of Atmospheric and Solar》2003,65(10):1161-1167
The ultra-low-frequency (ULF) geomagnetic pulsations observed at two nearly conjugate mid-latitude sites are examined to study their spatial structure and polarization, and learn about the role of ionospheric conductivity in forming their ground signatures. The data of 1999–2002 from Antarctica and New England (L of 2.4) are compared with the numerical results obtained in a simple plane model of ULF wave propagation through the ionosphere and atmosphere. The multi-layered model environment includes an anisotropic and parametrically time-dependent ionosphere, a uniform magnetosphere and a conducting Earth, all placed in a tilted geomagnetic field. The measured diurnal and seasonal variations in the orientation angle of the polarization ellipse are interpreted as effects of hydromagnetic wave propagation through the ionosphere and conversion to an electromagnetic field below. Essentially, the phase, amplitude and polarization of ULF waves observed at the ground are controlled by the wave's spatial structure in the magnetosphere and ionospheric transverse conductivities. The differences shown by the characteristics of simultaneous pulsations in conjugate areas arise mainly from different local ionospheric conditions, while the source waves of the pulsations are common to both sites. 相似文献
17.
《Journal of Atmospheric and Solar》2008,70(1):101-122
Vertical coupling in the low-latitude atmosphere–ionosphere system driven by the 5-day Rossby W1 and 6-day Kelvin E1 waves in the low-latitude MLT region has been investigated. Three different types of data were analysed in order to detect and extract the ∼6-day wave signals. The National Centres for Environmental Prediction (NCEP) geopotential height and zonal wind data at two pressure levels, 30 and 10 hPa, were used to explore the features of the ∼6-day waves present in the stratosphere during the period from 1 July to 31 December 2004. The ∼6-day wave activity was identified in the neutral MLT winds by radar measurements located at four equatorial and three tropical stations. The ∼6-day variations in the ionospheric electric currents (registered by perturbations in the geomagnetic field) were detected in the data from 26 magnetometer stations situated at low latitudes. The analysis shows that the global ∼6-day Kelvin E1 and ∼6-day Rossby W1 waves observed in the low-latitude MLT region are most probably vertically propagating from the stratosphere. The global ∼6-day W1 and E1 waves seen in the ionospheric electric currents are caused by the simultaneous ∼6-day wave activity in the MLT region. The main forcing agent in the equatorial MLT region seems to be the waves themselves, whereas in the tropical MLT region the modulated tides are also of importance. 相似文献
18.
A. F. Wickersham Jr. 《Pure and Applied Geophysics》1970,80(1):271-287
Summary Propagating acoustic-like disturbances generated by nuclear explosions have been observed to split in the lower ionosphere. The resulting two disturbances propagate vertically into the upper ionosphere at different speeds, the slower at ordinary sound speed in a neutral medium and the faster at almost twice the speed of sound.The faster disturbance travels at the speed of an ion-acoustic wave in the ionic fluid. Such identification is prohibited theoretically by the large damping, or coupling, of the ionic mode to the neutral particle medium through ion-neutral elastic collisions; however, if inelastic collisions are included in the theory, the principal exothermic charge-exchange and charge-transfer reactions in the ionosphere provide enough additional coherent momentum in the charged particles to offset the losses through elastic collisions. It is shown quantitatively that in some regions of the ionosphere ionacoustic wave propagation can occur almost losslessly.It is possible that under some conditions the ionosphere approaches an unstable chemical equilibrium that is relieved by the spontaneous generation of ion-acoustic wavelets. Various ionospheric observations are examined in which there is some evidence of the effects of ionospheric ionacoustic disturbances. 相似文献