磁尾爆发性整体流和地磁Pi2脉动关系研究

利用Cluster,TC-1以及中国和欧洲在中低纬六个地面台站的数据,分析了2004年10月22日1700-1930 UT发生的三次BBF事件过程中地面和近地空间磁场脉动的特性.这三次BBF事件都发生在地磁活动的平静时期.结果发现,有两次平静时期的BBF确实对应着阻尼型Pi2脉动,并且脉动的特征与以前观测结果中的特征类似.在第一次BBF事件中,空间观测和地面观测均发现了Pi2脉动;在第二次事件中,地面观测到了Pi2脉动,而空间没有观测到Pi2脉动;在第三次事件中,空间和地面观测都没有发现Pi2脉动.这些观测事实说明BBF所激发的Pi2脉动特征是相当复杂的,而且并不是所有BBF都能产生Pi2脉动,所以到底BBF在什么条件下可以产生Pi2仍然是一个没有解决的问题.      

关于太阳风中Alfvén脉动粘性衰减的讨论

本文讨论了被认为是可能存在的Alfvén脉动的粘性衰减效应.分析表明,Alfvén脉动的粘性衰减应是各向异性的,它正比于平行于平均磁场的脉动分量.若平行于与垂直于平均磁场方向的脉动能量之比为一常数,波长大于碰撞自由程的波动经历的粘性衰减都集中在20R_⊙以内.在0.3AU至1AU,各频率的Alfvén脉动将不经历显著的由库仑碰撞决定的粘性衰减.粘性衰减机制不能解释观测到的谱的径向变化.如果在接近太阳的空间,Alfvén脉动确有平行分量,那么它的粘性衰减将会对快发散流管中的太阳风有加速作用.如果在接近太阳的区域,Alfvén脉动的平行分量小得可以忽略的话,Alfvén脉动将不经受任何经典粘性衰减.      

中低纬度Pc3-4地磁脉动特性研究——子午工程数据分析初步结果

利用新建成的子午工程地磁台站数据,对比分析了地磁平静期间(2011年3月20-27日)和磁暴期间(2011年9月25日至10月1日)Pc3-4地磁脉动的时空分布特征及其对行星际条件的响应.数据分析结果表明,中低纬度(1.3<L<2.3,L为磁壳参数)的Pc3-4地磁脉动在这两个时期内的分布存在明显的晨昏不对称性,在昼侧前出现明显的Pc3-4地磁脉动并与行星际上游波动密切相关,其振幅增强可能与太阳风动压脉冲相关,高速太阳风更易导致Pc3-4地磁脉动;而对于近赤道低纬(L<1.3)区域,无论是在地磁平静期还是磁暴期均未能观测到Pc3-4地磁脉动,Pc3-4地磁脉动存在明显的纬度效应.      

频域内轴向柱塞泵模型研究

本文对液压系统中的流量压力脉动源一液压泵的频域数学模型作了研究。首先就航空中常用的平行轴向柱塞泵频域数学模型作了详细推导,说明该模型可以等效成一个源流量Q_S和源阻抗Z_S的并联模型,并揭示了Q_S、Z_S和泵内各参数之间的函数关系。然后讨论了一种Q_S的理论计算方法和Z_S的实验测试方法。最后,利用上述方法获得的Q_S和Z_S代入液压系统频域仿真程序后,得到某一系统的压力脉动理论计算值,并将它与同一系统的实验测得的压力脉动值比较,结果相当吻合,说明上述模型和计算测试方法是合理的。     

北京地区P_c3地磁脉动的统计分析

根据北京地区怀柔脉动观测站的资料,分析了北京地区P_c3地磁脉动,对地磁场南北分量上P_c3的出现频次,出现周期,平均周期的日变化和平均振幅的日变化作了统计分析,并将所得的主要结论与国外的一些研究工作做了比较.     

∑-Δ调制小数N频率合成器中结构寄生与随机模型的研究

详细讨论了∑-△量化器和结构寄生,并在小数N频率合成器中引入具有随机调制图案的∑-△调制模型,获得了充分随机的量化噪声,在系统灵活性、任意相位控制、切换速度和相噪之间没有折衷地消除了结构寄生,同时给出了实验结果。     

∑-△调制小数N频率合成器中结构寄生与随机模型的研究

详细讨论了∑-△量化器和结构寄生,并在小数N频率合成器中引入具有随机调制图案的∑-△调制模型,获得了充分随机的量化噪声,在系统灵活性、任意相位控制、切换速度和相噪之间没有折衷地消除了结构寄生,同时给出了实验结果.     

低纬Pi2地磁脉动的东西方向传播特性

１９９６年１０月至１１月２９日在地磁北纬２９．６°附近的新疆喀什,甘肃安西和北京,沿东西方向建立了地磁脉动观测台链。根据观测数据,研究了低纬Ｐｉ２脉动东西方向的传播和性和偏振特性,发现黄昏区以东向传播的右旋偏振为主。     

磁层顶的Kelvin-Helmholtz不稳定性(Ⅳ)可压缩不稳定波的若干特性

本文讨论了磁层顶可压缩K-H不稳定波的若干特性,包括磁场扰动和密度扰动的位相关系,扰动磁场的偏振特性,时间增长率的午前午后非对称性,空间增长率及磁层脉动的地方时效应和K-H不稳定波对IMF的响应。分析表明,上述诸特性对于了解磁层边界区MHD波的起源和K-H不稳定性同地磁脉动的关系十分重要。      

SABRE雷达及其观测的Pc5地磁脉动Ⅰ.统计分析结果

本文简要介绍了相干散射雷达SABRE及其观测Pc5地磁脉动的工作原理。1985—1989年观测数据的统计分析结果表明,相位向极传播脉动事件的出现率峰值在当地时间午夜附近,而向赤道传播事件的出现率峰值则在18:00LT左右。文中给出了上述两类脉动事件出现率的日变化,与地磁活动的相关,与背景电离层等离子体对流特性的关系等统计分析结果。     

使用地磁脉动参数定量预报地球同步轨道相对论电子通量的建模研究

磁层超低频波(ULF波)对种子电子的加速机制是磁层相对论电子产生的一个重要机制, 而地磁脉动参数可以作为此机制的有效指标. 本文采用地磁脉动参数作为输入参数, 借鉴线性预测滤波器技术, 构建一个多参量非线性函数, 进而利用此函数以及卡尔曼滤波技术, 建立一个地球同步轨道相对论电子通量日积分值预报模式, 提供提前一天的预报值. 使用2004年数据对该模式进行训练, 预报结果的预报效率为0.73, 线性相关系数为0.85. 使用2005-2006年的数据对该模式进行测试, 预报值与实测值之间的线性相关系数为0.83, 预报效率为0.69, 相比Persistence模式具有较大提升, 与仿REFM模式的预报效率相当      

Qualitative estimation of magnetic storm efficiency in producing relativistic electron flux in the Earth’s outer radiation belt using geomagnetic pulsations data

It is well known that during many but not all of the geomagnetic storms enhanced fluxes of high-energy electrons are observed in the outer radiation belt. Here we examine relativistic (>2 MeV) electron fluxes measured by GOES at the synchronous orbit and on-ground observations of two types of ULF pulsations during 30 magnetic storms occurred during 1996–2000. To characterize the effectiveness of the chosen magnetic storms in producing relativistic electron fluxes, following to (Reeves, G.D., McAdams, K.L., Friedel, R.H.W., O’Brien, T.R. Acceleration and loss of relativistic electrons during geomagnetic storms. Geophys. Res. Lett. 30, doi:10.1029/2002GL016513, 2003), we calculate a ratio of the maximum daily-averaged electron flux measured during the recovery phase, to the mean pre-storm electron flux. A storm is considered an effective one if its ratio exceeds 2. We compare behavior of Pi1 and Pc5 geomagnetic pulsations during effective and non-effective storms and find a tendency for a storm efficiency to be higher when the mid-latitude Pi1 pulsations are observed for a long time during the magnetic storm main phase. We note also that the prolonged powerful Pc5 pulsation activity during the recovery phase of a magnetic storm is the necessary condition for the storm effectiveness. To interpret the found dependences, we suggest that there are two prerequisites for generating relativistic electron populations during a storm: (1) the availability of seed electrons in the magnetosphere, and Pi1 emissions are indicators of the mid-energy electron interaction with the ionosphere and (2) acceleration of the seed electrons to MeV energies, and interaction of electrons with the MHD wave activity in the Pc5 range is one of the most probable mechanisms proposed in the literature for this purpose.     

基于支持向量机方法的地球同步轨道相对论电子事件预报模型研究

提出了一种基于支持向量机方法(SVM)的地球同步轨道相对论电子事件预报模型. 模型以平均影响值(MIV)作为指标, 筛选出预报输入参量. 这些参量包括, 前一日的大于2MeV电子日积分通量、太阳风速度、太阳风密度、Dst指数和前二日的AE指数. 模型包含回归和分类两个部分, 可以分别对未来一天的电子日积分通量和相对论电子事件强度的级别做出预报. 对2008年样本进行测试, 在相对论电子通量的预报中, 预报值和实测值之间的线性相关系数为0.85, 预报效率为0.71; 对相对论电子事件级别预报的准确率为82%, 可以较准确区分开事件状态与非事件状态. 结果表明, SVM预报模型对相对论电子事件有较好的预报效果.      

Mid-Latitude Pc1, 2 Pulsations Induced by Magnetospheric Compression in the Maximum and Early Recovery Phase of Geomagnetic Storms

We investigate the properties of interplanetary inhomogeneities generating long-lasting mid-latitude Pc1, 2 geomagnetic pulsations. The data from the Wind and IMP 8 spacecrafts, and from the Mondy and Borok midlatitude magnetic observatories are used in this study. The pulsations under investigation develop in the maximum and early recovery phase of magnetic storms. The pulsations have amplitudes from a few tens to several hundred pT andlast more than seven hours. A close association of the increase (decrease) in solar wind dynamic pressure (Psw) with the onset or enhancement (attenuation or decay) of these pulsations has been established. Contrary to high-latitude phenomena, there is a distinctive feature of the interplanetary inhomogeneities that are responsible for generation of long-lasting mid-latitude Pc1, 2. It is essential that the effect of the quasi-stationary negative Bz-component of the interplanetary magnetic field on the magnetosphere extends over 4 hours. Only then are the Psw pulses able to excite the above-mentioned type of mid-latitude geomagnetic pulsations. Model calculations show that in the cases under study the plasmapause can form in the vicinity of the magnetic observatory. This implies that the existence of an intense ring current resulting from the enhanced magnetospheric convection is necessary for the Pc1, 2 excitation. Further, the existence of the plasmapause above the observation point (as a waveguide) is necessary for long-lasting Pc1 waves to arrive at the ground.      

Comptel measurements of the omnidirectional high-energy neutron flux in near-earth orbit

On four occasions, twice in 1991 (near solar maximum) and twice in 1994 (near solar minimum), one COMPTEL D1 detector module was used as an omnidirectional detector to measure the high-energy (>12.8 MeV) neutron flux near an altitude of 450 km. The Dl modules are cylindrical, with radius 13.8 cm and depth 8 cm, and are filled with liquid scintillator (NE213A). The combined flux measurements can be fit reasonably well by a product of the Mt. Washington neutron monitor rate, a linear function in the spacecraft geocenter zenith angle, and an exponential function of the vertical geomagnetic cutoff rigidity in which the coefficient of the rigidity is a linear function of the neutron monitor rate. When pointed at the nadir, the flux is consistent with that expected from the atmospheric neutron albedo alone. When pointed at the zenith the flux is reduced by a factor of about 0.54. Thus the production of secondary neutrons in the massive (16000 kg) Compton Gamma-Ray Observatory spacecraft is negligible. Rather, the mass of the spacecraft provides shielding from the earth albedo.     

Ionospheric and geomagnetic Pc5 oscillations as observed by the ionosonde and magnetometer at Sodankylä

The study is based on the data of the rapid-run ionosonde at the Sodankylä Geophysical Observatory at auroral latitude (L?=?5.25) which routinely performs one-minute sounding since 2007. This dataset allows a unique opportunity for investigating possible effects of ultra-low frequency (ULF, 1–7?mHz) waves in the auroral ionosphere. Suitable observations were made during moderately disturbed geomagnetic conditions typically at recovery of the geomagnetic storms caused by solar wind high-speed streams, in the daytime between 9 and 16 MLT. The ionospheric oscillations corresponding to Pc5 geomagnetic pulsations were found in variations of the virtual height of the F layer and the power of ionosonde reflections from E and F layers. The later are most probably caused by modulation of electron precipitation, which is also manifested in weak (about 0.01–0.06?dB) variations of cosmic noise absorption. The most important and novel result is that the pulsations of power of reflection from E and F layers typically has a spectral maximum at nearly half the periodicity of the Pc5 geomagnetic pulsations, whereas such spectral peak is negligible in the geomagnetic pulsations.     

Analysis of ionospheric TEC response to solar and geomagnetic activities at different solar activity stages

Studying the relationship of total electron content (TEC) to solar or geomagnetic activities at different solar activity stages can provide a reference for ionospheric modeling and prediction. On the basis of solar activity indices, geomagnetic activity parameters, and ionospheric TEC data at different solar activity stages, this study analyzes the overall variation relationships of solar and geomagnetic activities with ionospheric TEC, the characteristics of the quasi-27-day periodic oscillations of the three variables at different stages, and the delayed TEC response of solar activity by conducting correlation analysis, Butterworth band-pass filtering, Fourier transform, and time lag analysis. The following results are obtained. (1) TEC exhibits a significant linear relationship with solar activity at different solar activity stages. The correlation coefficients |R| are arranged as follows: |R|_EUV > |R|_F10.7 > |R|sunspot number. No significant linear relationship exists between TEC and geomagnetic activity parameters (|R| < 0.35). (2) TEC, solar activity indices, and geomagnetic activity parameters have a period of 10.5 years. The maximum amplitudes of the Fourier spectrum for TEC and solar activity indices are nearly 27 days and those of geomagnetic activity parameters are nearly 27 and 13.5 days. (3) The deviations of the quasi-27-day significant periodic oscillation of TEC and solar activity indices are consistent. (4) No evident relationship exists between the quasi-27-day periodic oscillation of TEC and geomagnetic activity parameters. (5) The delay time of TEC for the 10.7 cm solar radio flux and extreme ultraviolet is always consistent, whereas that for sunspot number varies at each stage.     

An Investigation of Near-Equatorial Geomagnetic Pi2 Pulsations

There is understanding to date that Pi2 pulsations have two sources. One source is a high-latitude one and is due to fluctuations of electrojet parameters. The other source is a mid-latitude one and is driven by a global mode excited in the Earths plasmasphere. There is experimental evidence that in the near-equatorial regions the character of Pi2 excitation is different from high and mid-latitudes. In this connection, we investigated the amplitude-spectral-polarization characteristics of Pi2 pulsations using the date from near-equatorial Chinese stations. The detected regularities in the excitation of near-equatorial Pi2 pulsations are used in the discussion of the possible physical mechanism that is responsible for the generation of these pulsations.     

低纬Pc3脉动和电离层电流体系

假设在低纬地区有一根磁力线振荡,从基本方程出发,推算出地面各点的磁场扰动情况,模拟低纬Pc3脉动。对比低纬地区Pc3脉动的观测结果,可以看出用这种理论数值模拟的结果基本上与观测事实相符,用它可以初步解释低纬Pc3脉动的频率特性和偏振特点。