冷而密的等离子体片及其对磁尾等离子体片分布特性的影响

地球磁尾等离子体片在太阳风-磁层耦合过程中起着重要的作用，其中冷而密的等离子体片是地磁活动平静期太阳风等离子体进入磁层的重要区域.以往的研究通常没有利用局地探测数据针对冷而密的等离子体片发生率在地心太阳磁层坐标系（GSM）中xy平面分布的统计分析.本文利用GEOTAIL卫星1996-2016年的局地测量数据，给出了等离子体片密度、温度及冷而密的等离子体片发生率的二维分布.与温度具有晨昏对称分布不同，等离子体片数密度呈现明显的晨昏不对称性，并且冷而密的等离子体片发生率在晨侧较高.      

利用栅网控制空间等离子体环境效应模拟中的等离子体参数

通常采用ECR等离子体源产生的等离子体的温度和密度都比较大，通过附加适当目数的栅网，并在栅网上加一定的偏置电位来对等离子体参数，尤其是温度，密度进行调整，满足空间等离子体环境模拟要求，本文利用14目，25目的栅网，对已有的地面实验室空间等离子体环境进行了改进，得到了更加接近空间等离子体参数的一个地面模拟环境。     

柱形等离子体电离阻抗测量与分析

表面波等离子体的研究由于实验数据的大量积累而得到快速发展.结合传输线阻抗匹配原理,设计实验对柱形表面波等离子体电离阻抗进行测量;参照金属辐射体中辐射阻抗与损耗阻抗的求解方法,在简化条件下理论计算柱形等离子体的电离阻抗,并与实验数据进行分析比对.研究表明,表面波激发柱形等离子体的电离阻抗对等离子体源产生效率的分析及等离子体参数的诊断有着重要作用.这种新型等离子体源的研究具有非常重要的意义.      

基于JEC-FDTD算法的等离子体天线雷达散射截面计算

采用电流密度卷积FDTD算法(JEC-FDTD)计算了等离子体天线的散射特性, 分析了等离子体天线处于工作状态时等离子体参数(密度、碰撞频率)及天线外部约束腔体对天线雷达散射截面(RCS)的影响. 数值结果表明, 等离子体天线的RCS会随等离子体密度的减小及碰撞频率的增大而减小. 而约束腔体只有在高频段时才会对等离子体天线的RCS值产生较大的影响. 因此, 在不影响天线性能的情况下, 可以根据信号频率调节等离子体参数、选取合适的腔体材料以达到增强等离子体天线隐身性能的目的.      

VASIMR中螺旋波等离子体源设计

螺旋波等离子体具有密度高,可控性强且无电极等优点,被应用于可变比冲磁等离子体火箭(VASIMR,Variable Specific Impulse Magnetoplasma Rocket)中.设计了一个螺旋波等离子体源,并给出了其中2个关键部分——磁场线圈和螺旋波天线的设计.对螺旋波等离子体源进行了初步实验,结果表明,电子密度随射频输入功率的增加几乎呈线性上升,估计电子密度的量级在通入工质后完全可达10¹¹ cm^-3.     

电离层等离子体泡的磁场扰动特征与识别

等离子体泡是赤道区电离层常见的密度耗空结构,同时伴随着背景磁场的增强和垂直背景磁场方向上的扰动,这些扰动具有阿尔芬波的特征.本文利用Swarm卫星的标量、矢量磁场以及等离子体观测数据,考察了等离子体泡产生的磁场扰动信号特征,发现磁场强度和平均场向分量的增强均与等离子体泡密度下降有较强的负相关性,说明磁场标量和矢量(平均...     

地面实验室模拟空间等离子体环境的初步测试

空间等离子体和航天器的相互作用对航天器的安全有重要影响，利用空间实验来研究这些作用的代价很大，可以通过在地面实验室中模拟空间等离子体环境来低成本地研究这些相互作用。本研究通过使用ECR等离子体源期望在地面实验室来近似模拟空间等离子体环境。通过初步测量，我们得到了一个比较均匀的等离子体环境。     

柱形等离子体辐射场的数值计算和分析

参照金属辐射场的求解方法,在简化条件下计算出柱形等离子体行波传输和驻波传输的辐射图．当改变等离子体密度以及相关参数时,对应的辐射图会相应地发生变化,得出与信号在金属介质中传输相类似的结果．根据理想柱形等离子体表面波的色散关系得到波矢,求出的柱形等离子体辐射方向图与金属介质的辐射方向图相比,会发生较大的变化,因此利用等离子体进行信号传输有一定的价值．     

磁鞘等离子体密度统计建模

利用理想磁流体LFM模型的模拟数据,基于非参数统计方法对2004年11月14日03:00UT-07:00UT磁暴恢复相期间磁鞘等离子体平均密度进行建模.分析磁鞘等离子体平均密度与上游太阳风参数、行星际磁场参数及地磁扰动参数的统计关系,建立基于数据降维的经验模型.结果表明,电离层扰动强度因子、太阳风-磁层耦合强度因子和日地空间因果链耦合强度因子是影响磁鞘等离子体平均密度的三个主要方面.磁暴恢复相期间电离层上行离子是磁层环电流和磁尾等离子体的重要离子来源.建模分析过程表明,利用经验模型对空间物理过程开展建模,数据的严重多重共线性通常会导致模型的精度较差.而利用SIR和LPR建立的磁鞘等离子体平均密度随相关参数变化的经验模型可以有效解决该问题,具有较好的预测精度,统计特征显著.      

连续磁活动对等离子体层演化的影响

利用嫦娥三号极紫外相机观测的2014年2月21日等离子体层极紫外对数图像，分析了一系列磁活动状态下等离子体层晨侧视角的演化.由等离子体层质子的相空间分布，模拟了2014年2月18—22日发生一系列磁暴事件时等离子体层在磁赤道面的演化.通过观测与模拟发现，等离子体层实际的填充速度大于模拟时等离子体层的填充速度.推测昏侧与日侧之间的羽结构对侧面视角下向阳侧等离子体层顶的位置会造成影响.模拟中等离子体层整体对磁暴的响应在3h内，大磁暴对等离子体层的影响时间较长，可以达到1～2天.连续的磁暴事件对等离子体层的影响有叠加的效果.等离子体层的回填比侵蚀需要更长的时间.      

Investigating gamma-ray burst data reduction techniques with Swift’s instruments

The amount of data on gamma-ray bursts (GRBs) and the detected afterglows observed by the Swift satellite contributed significantly to the understanding of the phenomenon. The behavior of the early afterglow rises some interesting questions. With the early afterglow localizations of gamma-ray burst positions made by Swift, the clear delimitation of the prompt phase and the afterglow is not so obvious any more. There are hints of a canonical X-ray afterglow lightcurve with segments of different slopes. Not all bursts necessarily show all the segments. It is important to see if the prompt phase and the afterglow has the same origin or they stem from different parts of the progenitor system. We will combine the of gamma-ray burst data from BAT and XRT and compare the extrapolated gamma-ray flux to the X-ray in a sample of bursts and find that there is a good agreement between the two measurements. This indicates that the physical process shaping burst and the early afterglow are the same.     

Time constants in the ionosphere from neural network models

Neural network (NN) models for the low latitude and the polar ionosphere from the D- to the F-region were developed which are based on incoherent scatter radar data from Arecibo and EISCAT Svalbard, respectively. The various geophysical input parameters defining the NN are not only the ones that represent the time one wants to predict, but also the geophysical conditions prior to the time of the prediction. The optimum length of these preceding periods are derived for the two models are different, but a period of 60 days is a compromise acceptable for both latitudes. Furthermore from the Arecibo data time constants of electron density decay after sundown are derived which – arguably – are also relevant elsewhere, including the polar latitudes. Whereas at all altitudes the electron densities decay exponentially after sundown, below 300 km there is an additional variation with solar zenith angle.     

The origin of the prompt optical emission in GRB 060111B

The detection of a bright optical emission measured with good temporal resolution during the prompt phase makes GRB 060111B a rare event that is especially useful for constraining theories of the prompt optical emission. Comparing this burst with other GRBs with evidence of optical peaks, we find that the optical peak epoch (t_p) is anti-correlated with the high energy burst energetic assuming an isotropic energy release (E_iso) in agreement with Liang et al. (2009), and that the steeper is the post-peak afterglow decay, the less is the agreement with the correlation. GRB 060111B is among the latters and it does not match the correlation. The Cannonball scenario is also discussed and we find that this model cannot be excluded for GRB 060111B.     

F2 layer response to geomagnetic disturbances in Eastern Asia under the low solar activity

In this paper, the peculiarities of ionospheric response to geomagnetic disturbances observed at the decay and minimum of solar activity (SA) in the period 2004–2007 are investigated with respect to different geomagnetic conditions. Data from ionospheric stations and results of total electron content (TEC) measurements made at the network of GPS ground-based receivers located within the latitude–longitude sector (20–70°N, 90–160°Е) are used in this study. Three groups of anomalous ionospheric response to geomagnetic disturbances have been observed during low solar activity. At daytime, the large-scale traveling ionospheric disturbances (LSTIDs) could generally be related to the main phase of magnetic storm. Quasi-two-days wavelike disturbances (WLDs) have been also observed in the main phase independent of the geomagnetic storm intensity. Sharp electron density oscillations of short duration (OSD) occurred in the response to the onset of both main and recovery phases of the magnetic storm in the daytime at middle latitudes. A numerical model for ionosphere–plasmasphere coupling was used to interpret the occurrence of LS TIDs. Results showed that the LSTIDs might be associated with the unexpected lifting of F2 layer to the region with the lower recombination rate by reinforced meridional winds that produces the increase of the electron density in the F2 layer maximum.     

Radiation from relativistic shocks in turbulent magnetic fields

Using our new 3-D relativistic particle-in-cell (PIC) code parallelized with MPI, we investigated long-term particle acceleration associated with a relativistic electron–positron jet propagating in an unmagnetized ambient electron–positron plasma. The simulations were performed using a much longer simulation system than our previous simulations in order to investigate the full nonlinear stage of the Weibel instability and its particle acceleration mechanism. Cold jet electrons are thermalized and ambient electrons are accelerated in the resulting shocks. Acceleration of ambient electrons leads to a maximum ambient electron density three times larger than the original value as predicted by hydrodynamic shock compression. In the jet (reverse) shock behind the bow (forward) shock the strongest electromagnetic fields are generated. These fields may lead to time dependent afterglow emission. In order to calculate radiation from first principles that goes beyond the standard synchrotron model used in astrophysical objects we have used PIC simulations. Initially we calculated radiation from electrons propagating in a uniform parallel magnetic field to verify the technique. We then used the technique to calculate emission from electrons in a small simulation system. From these simulations we obtained spectra which are consistent with those generated from electrons propagating in turbulent magnetic fields with red noise. This turbulent magnetic field is similar to the magnetic field generated at an early nonlinear stage of the Weibel instability. A fully developed shock within a larger simulation system may generate a jitter/synchrotron spectrum.     

Testing the blast wave model with Swift GRBs

The complex structure of the light curves of Swift GRBs (e.g. superimposed flares and shallow decay) has made their interpretation and that of the blast wave caused by the burst, more difficult than in the pre-Swift era. We aim to constrain the blast wave parameters: electron energy distribution, p, density profile of the circumburst medium, k, and the continued energy injection index, q. We do so by comparing the observed multi-wavelength light curves and X-ray spectra of a Swift sample to the predictions of the blast wave model.     

Some effects in the upper atmosphere during geomagnetic storms

This paper examines the response of the high latitude ionosphere–thermosphere system during two intense geomagnetic storms. For that, data taken by instruments on board Dynamic Explorer 2 taken at heights of the F2-layer are used. These results represent a comparison of simultaneous measurements of storm disturbances in gas composition, electron density and temperature in common local time sectors. Documented are an increase in electron temperature and a decrease in electron density; increases both in electron temperature and electron density; and the correlation between electron density decreases and increases in the ratio N₂/O. It is noticed that the decrease in electron density is sometimes due to an increase in the molecular nitrogen density N₂ and not always is attributed both to the increase in N₂ density and the simultaneous decrease in the atomic oxygen density.     

低纬地区夜间电离层底部电子浓度与磁扰的关系

本文利用100kHz的低频无线电波资料,计算分析了1986—1987年期间,几种不同磁扰情况下,低纬地区夜间电离层中100km以下区域积分电子浓度及其变化的起因.结果表明:该区域电子浓度的变化与地磁扰动关系密切.在磁静日期间,其值较小,且随磁扰而变化,但比磁扰滞后1到2天.在磁暴后,其值较大,会出现几次剧烈起伏.该区域积分电子浓度的起伏可大于一个量级.沉降电子产生的动致辐射可能是引起该区域电子浓度变化的主要原因之      

微阴极电弧推力器羽流探针诊断研究

微阴极电弧推力器（micro-cathode arc thruster,μCAT）具备功率低和结构简单的特点,能够满足微纳卫星的任务需求,具有良好的发展前景。μCAT羽流的诊断可以揭示推力器的加速机理,对提高其性能具有重要意义。利用朗缪尔三探针对μCAT羽流进行诊断,得到了μCAT羽流不同位置的电子温度、电子密度和离子速度等羽流特性,研究了外加磁场、充电时间和阴极材料对羽流特性的影响。研究结果表明,μCAT放电初期产生的等离子体电子温度较高,密度较大;随着等离子体向下游运动,电子温度和电子密度降低,离子速度增大;外加磁场的磁感应强度越强,电子温度和离子速度越高,电子密度有所降低;磁场位置适当向推力器下游平移,能够有效提高推力器中轴线的电子密度;μCAT充电时间越长,电子温度、电子密度和离子速度越大;相比于CuW和AgW阴极,Ti阴极羽流的电子温度更高,电子密度更低。