内日球太阳风的激波加热          下载免费PDF全文

刘绍亮  刘四清 《地球物理学报》1998,41(3):293-297

利用HeliosA,B飞船1974年至1980年的太阳风探测资料,分析了不同速度间隔太阳风质子温度径向变化指数在太阳不同活动期的变化,以及不同太阳活动期间内日球行星际激波强度分布的变化．结果指出,在0．3-1．0AU区间行星际激波可能是太阳风加热的一个重要因素,这一因素在太阳活动高年可能起着主要的作用．激波MHD数值模拟也从量的方面表明激波加热太阳风的有效性．  相似文献   

五矩二流太阳风等离子体特性的数值研究   总被引：4，自引：0，他引：4  

王敬芳  姜新英 《地球物理学报》1990,33(3):259-266

本文数值求解了各向同性二流太阳风的五矩方程组,得出了1 R_s-2AU区域内太阳风密度、速度、电子和质子温度、它们的热流通量密度q以及非麦克斯韦分布尾部粒子过剩量ξ随日心距离的变化关系.文中比较了二流太阳风五矩模型、四矩模型（ξ=0）和低阶矩模型（不包括q和ξ二个矩方程）的等离子体特性,着重讨论了量ξ对质子温度及其热流通量的影响.结果表明,包括言的五矩方程可改善T_e/T_p和q_e/q_p的计算值与观测值的符合程度.  相似文献   

太阳风中磁场与等离子体流耦合的探讨          下载免费PDF全文

程贤德  朱岗崑 《地球物理学报》1988,31(6):622-629

本文在忽略太阳风中磁场对粒子流温度影响的情况下,利用了两个研究太阳风的二元流体模型的结果,计算分析并讨论了在1AU内太阳赤道面附近,考虑磁场与等离子体流耦合后,各太阳风参数的变化情况。结果表明,太阳风中磁场对等离子休流的作用在方位角向较显著;磁场使太阳风方位角速度在1AU处的值可达到1.85km/s;低速太阳风的角动量主要由其中的磁场携带,磁场能逐步将其角动量传输给等离子体流。  相似文献   

太阳风湍流中局地背景磁场下的结构函数指数特征     

吴红红  涂传诒  王新  何建森  杨利平 《世界地震译丛》2022,(4):478-487

太阳风是天然的磁流体湍流实验室.当前流行的描述磁流体湍流的临界平衡串级模型,预测平行局地背景磁场的谱指数为-2.小波变换分析和结构函数分析是得到相对于局地背景磁场的谱指数各向异性的两个主要方法.前人的工作得到了太阳风中平行局地背景磁场的谱指数为-2的观测结果.然而,这一结果被认为是受到了太阳风中的间歇或结构的影响.一方...  相似文献   

太阳高能粒子(SEP)传播数值模拟中的太阳风背景场研究          下载免费PDF全文

魏稳稳  沈芳  左平兵  秦刚  杨子才 《地球物理学报》2016,59(3):767-777

太阳高能粒子(SEP)事件是一类重要的空间天气灾害性事件,如能准确预报SEP事件,人们便可以采取必要的防护措施,保障卫星、星载设备以及航天员的安全,尽可能地降低经济损失.因此,其数值预报研究在空间天气预报研究中占有很重要的地位.SEP事件中的高能粒子在不同的时间尺度内被耀斑过程或者CME驱动的激波加速,并且在被扰动后的行星际太阳风中传输,这些过程都紧紧依赖于太阳风背景场.因此获取更加接近物理真实的太阳风背景场是模拟SEP事件的重要部分,也是提高SEP物理模式的关键因素之一.我们目前的工作基于张明等发展的SEP在行星际空间传播的模型,尝试将Parker太阳风速度解及WIND飞船观测的磁场实时数据融入模型中,研究不同的太阳风速度以及真实磁场分布对SEP在行星际空间中传播的影响.通过求解聚焦传输方程,我们的模拟结果表明:(1)快太阳风条件下,绝热冷却效应项发挥了更大的作用,使粒子能量衰减的更快,而慢太阳风对粒子的通量变化没有显著影响;(2)加入观测的磁场数据时,粒子的全向通量剖面发生了比较明显的变化,具体表现在:通量峰值推迟到达、出现多峰结构、各向异性也发生一些改变.分析表明真实磁场的极性对粒子在行星际空间中传播有着重要的影响.  相似文献   

耀斑-行星际激波结构与相应地磁扰动结构间关系的分析（Ⅰ）          下载免费PDF全文

刘四清  魏奉思 《地球物理学报》1993,36(6):691-698

利用297个耀斑-行星际激波-地磁扰动事件,统计研究了耀斑-行星际激波等离子体结构与相应磁扰结构间的关系,新的发现是:当激波面后的磁场南、北分量不大时,激波等离子体结构决定着相应磁扰的基本结构形态,特别是等离子体热状态与相应磁扰的恢复相关系十分密切.由本文定义的激波能量传输指数--FS指数对相应地磁扰动能给出较好的描述.推论:除磁重联这类能量传输机制外,对于行星际磁场南、北分量较小时,还可能存在以等离子体过程为基础的决定磁扰变化结构的太阳风-磁层能量传输机制,应进一步研究.  相似文献   

第23太阳活动周期太阳风参数及地磁指数的统计分析   总被引：2，自引：1，他引：1       下载免费PDF全文

沈晓飞  倪彬彬  顾旭东  周晨  刘勇  项正  赵正予 《地球物理学报》2015,58(2):362-370

日冕物质抛射(Coronal Mass Ejection,简称CME)和共转相互作用区(Corotating Interaction Region,简称CIR)是造成日地空间行星际扰动和地磁扰动的两个主要原因,提供了地球磁暴的主要驱动力,进而显著影响地球空间环境.为深入研究太阳风活动及受其主导影响的地磁活动的时间分布特征,本文对大量太阳风参数及地磁活动指数的数据进行了详细分析.首先,采用由NASA OMNIWeb提供的太阳风参数及地磁活动指数的公开数据,通过自主编写matlab程序对第23太阳活动周期(1996-01-01—2008-12-31)的数据包括行星际磁场Bz分量、太阳风速度、太阳风质子密度、太阳风动压等重要太阳风参数及Dst指数、AE指数、Kp指数等主要的地磁指数进行统计分析,建立了包括269个CME事件和456个CIR事件列表的数据库.采用事例分析法和时间序列叠加法分别对两类太阳活动的四个重要太阳风参数(IMF Bz、太阳风速度、太阳风质子密度、太阳风动压)和三个主要地磁指数(Dst、AE、Kp)进行统计分析,并研究了其统计特征.其次,根据Dst指数最小值确定了第23太阳活动周期内的355个孤立地磁暴事件,并以Dst指数最小值为标准将这些磁暴进一步分类为145个弱磁暴、123个中等磁暴、70个强磁暴、12个剧烈磁暴和5个巨大磁暴.最后,采用时间序列叠加法对不同强度磁暴的太阳风参数和地磁指数进行统计分析.统计分析表明,对于CME事件,Nsw/Pdyn(Nsw表示太阳风质子密度,Pdyn表示太阳风动压)线性拟合斜率一般为正;对于CIR事件,Nsw/Pdyn线性拟合斜率一般为负,这可作为辨别CME和CIR事件的一种有效方法.从平均意义上讲,相较于CIR事件,CME事件有更大的南向IMF Bz分量、太阳风动压Pdyn、AE指数、Kp指数以及更小的Dstmin.一般情况下,CME事件有更大的可能性驱动极强地磁暴.总体而言,对于不同强度的地磁暴,Dst指数的变化呈现出一定的相似性,但随着地磁暴强度的增强,Dst指数衰减的速度变快.CME和CIR事件以及其各自驱动的地磁暴事件有着很多不同,因此,需要将CME事件驱动的磁暴及CIR事件驱动的磁暴分开研究.建立CME、CIR事件及地磁暴的数据库以及获取的统计分析结果,将为深入研究地球磁层等离子体片、辐射带及环电流对太阳活动的响应特征提供有利的帮助.  相似文献   

磁尾等离子体片区氧离子丰度对离子剪切流的开尔文-赫姆霍茨不稳定性的影响          下载免费PDF全文

路立  刘振兴  李中元  曹晋滨 《地球物理学报》2001,44(Z1):1-7

考虑等离子体片区存在源于电离层的氧离子,研究了离子剪切流在低频表面波扰动情况下的开尔文-赫姆霍茨(K-H)不稳定性.在氧离子流与质子流具有近似相同的宏观流速假定下,采用磁流体力学(MHD)近似,并且考虑在磁场方程中保留速度场涡量项,推导出沿磁场方向传播的表面波线性扰动的色散关系.在等离子体片边界层区,发现随着氧离子相对丰度的增加,产生K-H不稳定性的最大临界扰动波长可增大到20RE(地球半径).对于给定的氧离子丰度,临界剪切相对扰动波长的变化存在一个最小值.氧离子丰度越高,最小临界剪切值越小,对应的扰动波长(称最不稳定波长)也越长.高氧离子丰度的不稳定性增长率随速度剪切增加而增加,快于低氧离子丰度.不稳定性增长率随速度剪切增加的最大饱和值接近对应的离子回旋频率.在地磁活动期间,由等离子体片中氧离子丰度增加而增大的沿磁场传播的表面波不稳定性对于理解低频磁脉动事件和磁层亚暴过程也有着十分重要的意义.  相似文献   

地球内磁层场向电流的统计特征   总被引：4，自引：2，他引：4       下载免费PDF全文

焦维新 Russ.  CT 《地球物理学报》1997,40(4):453-459

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   

磁化等离子体非相干散射理论谱中的共振线研究          下载免费PDF全文

梁宇  赵必强  郝红连  丁锋  曾令旗  乐新安  宁百齐 《地球物理学报》1954,63(12):4291-4299

本文对磁化等离子体非相干散射理论谱下的共振线进行了研究,简要介绍了等离子体线和回旋线的色散关系,并通过理论分析给出了二次回旋谐频处等离子体线分裂现象的色散关系.结合三亚非相干散射雷达（Sanya Incoherent Scatter Radar,SYISR）实际参数,对回旋线以及低频振荡、高频共振进行了分析讨论.分析后认为：SYISR拥有观测夜间200 km以下和400 km以上回旋线的可能性;在白天仅存在观测到H⁺振荡谱线的可能性;若观测数据足够良好,将可以观测到二次以及三次回旋谐频处的等离子体线分裂现象.  相似文献   

Alfven脉动串级加热加速太阳风的二元流体模型   总被引：2，自引：1，他引：2       下载免费PDF全文

卢先和  涂传诒 《地球物理学报》1997,40(1):1-9

为研究太阳风的加速及加热机制，本又提出计算太阳风加速与加热的二元流体模型．该模型是建立在涂传治等提出的Alfven脉动的波能本级理论的基础上的．它能够描述从1Rs到1AU空间范围内太阳风的加速与加热，特别是它能够描述Alfven脉动的主要特性和Helios卫星对0.29－IAU空间范围内太阳风高速流的观测．上述结果说明Alfven波对太阳风的加速和加热有着十分重要的作用，并为研究太阳风的起源提供理论依据．  相似文献   

The structure and origin of magnetic clouds in the solar wind     

V. Bothmer  R. Schwenn 《Annales Geophysicae》1997,16(1):1-24

Plasma and magnetic field data from the Helios 1/2 spacecraft have been used to investigate the structure of magnetic clouds (MCs) in the inner heliosphere. 46 MCs were identified in the Helios data for the period 1974–1981 between 0.3 and 1 AU. 85% of the MCs were associated with fast-forward interplanetary shock waves, supporting the close association between MCs and SMEs (solar mass ejections). Seven MCs were identified as direct consequences of Helios-directed SMEs, and the passage of MCs agreed with that of interplanetary plasma clouds (IPCs) identified as white-light brightness enhancements in the Helios photometer data. The total (plasma and magnetic field) pressure in MCs was higher and the plasma- lower than in the surrounding solar wind. Minimum variance analysis (MVA) showed that MCs can best be described as large-scale quasi-cylindrical magnetic flux tubes. The axes of the flux tubes usually had a small inclination to the ecliptic plane, with their azimuthal direction close to the east-west direction. The large-scale flux tube model for MCs was validated by the analysis of multi-spacecraft observations. MCs were observed over a range of up to 60° in solar longitude in the ecliptic having the same magnetic configuration. The Helios observations further showed that over-expansion is a common feature of MCs. From a combined study of Helios, Voyager and IMP data we found that the radial diameter of MCs increases between 0.3 and 4.2 AU proportional to the distance, R, from the Sun as R^0.8 (R in AU). The density decrease inside MCs was found to be proportional to R^–2.4, thus being stronger compared to the average solar wind. Four different magnetic configurations, as expected from the flux-tube concept, for MCs have been observed in situ by the Helios probes. MCs with left-and right-handed magnetic helicity occurred with about equal frequencies during 1974–1981, but surprisingly, the majority (74%) of the MCs had a south to north (SN) rotation of the magnetic field vector relative to the ecliptic. In contrast, an investigation of solar wind data obtained near Earths orbit during 1984–1991 showed a preference for NS-clouds. A direct correlation was found between MCs and large quiescent filament disappearances (disparition brusques, DBs). The magnetic configurations of the filaments, as inferred from the orientation of the prominence axis, the polarity of the overlying field lines and the hemispheric helicity pattern observed for filaments, agreed well with the in situ observed magnetic structure of the associated MCs. The results support the model of MCs as large-scale expanding quasi-cylindrical magnetic flux tubes in the solar wind, most likely caused by SMEs associated with eruptions of large quiescent filaments. We suggest that the hemispheric dependence of the magnetic helicity structure observed for solar filaments can explain the preferred orientation of MCs in interplanetary space as well as their solar cycle behavior. However, the white-light features of SMEs and the measured volumes of their interplanetary counterparts suggest that MCs may not simply be just H-prominences, but that SMEs likely convect large-scale coronal loops overlying the prominence axis out of the solar atmosphere.  相似文献   

慢激波在快激波下游演化的限制          下载免费PDF全文

刘绍亮 《地球物理学报》1995,38(1):1-5

慢激波的演化受其上游介质性质的制约，在等离子体热压与磁压之比β值和离子、电子温度比Ｔｉ／Ｔｅ大于１的介质中不利于慢波变陡形成慢激波。由飞船ＨｅｌｉｏｓＡ，Ｂ探测资料看出，在日心距０．３-１．０ＡＵ区间只有慢速太阳风流中存在有利于慢激波形成的条件。但理论计算和飞船观测指出，在快激波下游流场中β值和Ｔｉ／Ｔｅ都增大，因而在上述区间不论何种流速的太阳风中当有快激波经过后其下游流场内很难形成慢激波。  相似文献   

Intermittency analysis and spatial dependence of magnetic field disturbances in the fast solar wind     

Y.-H. Yang  Sunny W.Y. Tam 《Journal of Atmospheric and Solar》2010,72(1):97-108

Based on Helios measurements, seven quantities of normalized PDF (Probability Distribution Function) associated with magnetic field and its disturbances are utilized to characterize the intermittency in the fast solar wind using Castaing distributions and the idea of “Flatness”. The magnetic field fluctuations are found to be more intermittent at farther distances from the sun. The “Flatness” decreases with increasing time scales, with the corresponding PDF eventually approaching Gaussian distributions. Such a transition occurs at a relatively small time scale for the perpendicular component of perturbed field. The increase in “Flatness” with decreasing time scale is more apparent farther from the sun. By examining how the relative energy density of magnetic disturbances at various time scales changes with the mean field, our study supports the idea that the perturbed fields in the fast solar wind in the frequency range considered are consistent with cross-scale redistribution of wave energy favoring larger scales.  相似文献   

An extended structure-function model and its application to the analysis of solar wind intermittency properties     

C.-Y. Tu  E. Marsch  H. Rosenbauer 《Annales Geophysicae》1996,14(3):270-285

An extended structure-function model is developed by including the new effect in the p-model of Meneveau and Sreenivasan which shows that the averaged energy cascade rate changes with scale, a situation which has been found to prevail in nonfullydeveloped turbulence in the inner solar wind. This model is useful for the small-scale fluctuations in the inner heliosphere, where the turbulence is not fully developed and cannot be explained quantitatively by any of the previous intermittency turbulence models. With two model parameters, the intrinsic index of the energy spectrum <alpha>, and the fragmentation fraction P ₁, the model can fit, for the first time, all the observed scaling exponents of the structure functions, which are calculated for time lags ranging from 81 s to 0.7 h from the Helios solar wind data. From the cases we studied we cannot establish for P ₁ either a clear radial evolution trend, or a solar-wind-speed or stream-structure dependence or a systematic anisotropy for both the flow velocity and magnetic field component fluctuations. Generally, P ₁ has values between 0.7 and 0.8. However, in some cases in low-speed wind P ₁ has somewhat higher values for the magnetic components, especially for the radial component. In high-speed wind, the inferred intrinsic spectral indices (<alpha>) of the velocity and magnetic field components are about equal, while the experimental spectral indices derived from the observed power spectra differ. The magnetic index is somewhat larger than the index of the velocity spectrum. For magnetic fluctuations in both high- and low-speed winds, the intrinsic exponent <alpha> has values which are near 1.5, while the observed spectral exponent has much higher values. In the solar wind with considerable density fluctuations near the interplanetary current sheet near 1 AU, it is found that P ₁ has a comparatively high value of 0.89 for V _x . The impact of these results on the understanding of the nature of solar wind fluctuations is discussed, and the limitations in using structure functions to study intermittency are also described.  相似文献   

张家口-怀柔地区的微震震源参数          下载免费PDF全文

郑治真  齐国英  郭亚平 《地球物理学报》1976,19(3):234-238

本文是前两项工作的继续,采用微震仪记录图测定了张家口-怀柔地区微震（M_L=2.0-3.0）的震源参数,结果表明,拐角频率在2-5赫兹范围,地震矩为（0.5-20）×10¹⁹达因·厘米数量级,应力降为十分之几巴到几巴.  相似文献   

太阳自轉对地磁場的影响（二）     

胡岳仁 《地球物理学报》1959,8(2):123-131

作者在前一篇文章里分析每月五天国际磁扰日在太阳自轉周里的頻率分布,得到下述两个結論: 1.国际地磁干扰日在太阳自轉周里确实存在着一个不变的頻率分布,地磁場发生干扰的可能性,在頻率高的日序里約为在頻率低的日序里的二倍。 2.太阳的活动性,在太阳經圈上的分布是不均勻的,有些部分活动性強,有些部分活动性弱。  相似文献   

在耀斑-日球电流片坐标系中——研究耀斑-激波相应地磁扰动的分布特征（Ⅱ）     

魏奉思  刘四清 《地球物理学报》1991,34(2):133-138

本文采用一种新的坐标系--耀斑-日球电流片坐标系,对1966-1982年间由耀斑-激波所引起的277个耀斑-地磁扰动事件进行了分析.初步结果是:1.耀斑-地磁扰动事件在该坐标系中相对日球电流片的随机分布呈高斯分布,极大值在电流片附近;2.当地球和耀斑位于日球电流片同侧时,地磁扰动事件频次远高于异侧;3.地磁扰动强弱在该坐标系中的分布,亦呈现了同侧高于异侧,且极大值多在日球电流片附近;4.耀斑-激波能流密度ρ₂V₂³及其跃变量ρ₂V₂³-ρ₁V₁³在该坐标系中具有十分类似于相应磁扰水平的分布,其离散程度后者略大于前者. 根据本文的结果可以看出,对耀斑-地磁扰动研究来说,近太阳日球电流片的存在是一个重要的特征面,它对耀斑-地磁扰动的产生和强弱水平有重要影响,使太阳耀斑活动与地磁活动效应之间的对应关系变得复杂化了.  相似文献   

Compressive fluctuations in the solar wind and their polytropic index     

B. Bavassano  R. Bruno  H. Rosenbauer 《Annales Geophysicae》1996,14(5):510-517

Magnetohydrodynamic compressive fluctuations of the interplanetary plasma in the region from 0.3 to 1 AU have been characterized in terms of their polytropic index. Following Chandrasekhar’s approach to polytropic fluids, this index has been determined through a fit of the observed variations of density and temperature. At least three different classes of fluctuations have been identified: (1) variations at constant thermal pressure, in low-speed solar wind and without a significant dependence on distance, (2) adiabatic variations, mainly close to 1 AU and without a relevant dependence on wind speed, and (3) variations at nearly constant density, in fast wind close to 0.3 AU. Variations at constant thermal pressure are probably a subset of the ensemble of total-pressure balanced structures, corresponding to cases in which the magnetic field magnitude does not vary appreciably throughout the structure. In this case the pressure equilibrium has to be assured by its thermal component only. The variations may be related to small flow-tubes with approximately the same magnetic-field intensity, convected by the wind in conditions of pressure equilibrium. This feature is mainly observed in low-velocity solar wind, in agreement with the magnetic topology (small open flow-tubes emerging through an ensemble of closed structures) expected for the source region of slow wind. Variations of adiabatic type may be related to magnetosonic waves excited by pressure imbalances between contiguous flow-tubes. Such imbalances are probably built up by interactions between wind flows with different speeds in the spiral geometry induced by the solar rotation. This may account for the fact that they are mainly found at a large distance from the sun. Temperature variations at almost constant density are mostly found in fast flows close to the sun. These are the solar wind regions with the best examples of incompressible behaviour. They are characterized by very stable values for particle density and magnetic intensity, and by fluctuations of Alfvénic type. It is likely that temperature fluctuations in these regions are a remnant of thermal features in the low solar atmosphere. In conclusion, the polytropic index appears to be a useful tool to understand the nature of the compressive turbulence in the interplanetary plasma, as far as the frozen-in magnetic field does not play a crucial role.  相似文献