各向异性等离子体多重电流片的演化

应用二维三维量磁流体动力学方程组模拟，数值研究了压力各向异性等离子体周期多重电流片的演化，发现在β＜＜1时，微弱的各向异性仅仅使电流片中磁场重联的速度加快，而当β≈1（即热压与磁压相当时，微弱的垂直各向异性不仅大大加速了磁场重联的速度，还使重联位置发生显著变化。初始反对称的磁场重联位形逐步转化为对称的磁场位形，进而再演化为与初始反相的反对称磁场位形，场向各向异性和强的垂直各向异性都导致不稳定性增长率成倍增加。但在场各向异下磁场位形基本不变，只在电流片中心出现不规则扰动，同样参数下向向异性等离子体多重电流片中磁场重联形成的磁岛比各向同性多层电流要小。     

太阳色球层-日冕中扰动的传播

为了模拟太阳色球层、过渡层和日冕中扰动的传播特征,本文在一自洽的非等温、非均匀等离子体初态下,应用二维时变可压缩磁流体动力学模拟,数值研究了过渡层附近局地加热引起的扰动传播过程.结果表明,扰动分别以局地快磁流波速度向四周传播,数值模拟结果与局地快磁流波推算结果符合得很好,其特征可以解释SOHO/EIT观测到的波动事件.      

磁暴期间电离层电磁离子回旋波的地方时分布差异

利用Swarm卫星的高精度(50 Hz)磁场观测数据,对2015年3月16-25日磁暴期间中纬度电离层电磁离子回旋(EMIC)波时空分布特征进行了研究.结果表明:晨侧EMIC波事件数与昏侧大致相当,午前时段明显多于子夜前时段.昏侧EMIC波高发生率与等离子体羽状结构有关,晨侧EMIC波高发生率与太阳风动压增强及稠密冷等...     

高速太阳风条件下日侧磁层顶磁通量传输事件的全球磁流体力学模拟结果

利用全球磁流体力学模拟,研究了高速太阳风条件下日侧磁层顶的磁通量传输事件（FTE）发生率的空间分布.从模拟结果中得到了FTE信号,并且这些FTE信号的特征与观测结果基本一致.磁层顶上的10个取样点共观测到39个FTE信号.统计分析表明,越靠近翼侧则观测到的FTE信号越少.这一现象可能是磁鞘中太阳风速度分布差异导致的.      

高速流前端磁场B_z分量的变化

等离子体片高速流在磁层活动中起着重要作用,其形成机制以及与背景等离子体的相互作用日益引起关注.本文利用搭载于Cluster四颗卫星上的磁场和等离子体观测仪器,对2001和2002两年发生在磁尾等离子体片中高速流事件期间的磁场变化进行了统计研究.结果表明,在高速流前端,伴随着等离子体整体速度的增加,绝大多数高速流前端磁场的B_z分量经常出现先短暂减小然后剧烈增大的现象,符合以往利用Geotail卫星观测数据获得的统计特性.然而个例研究发现B_z的下降与上升常常是不对称的,且B_z分量下降的程度并不是总能达到反向的程度,说明这种变化特征并不一定是存在磁结构的表现.我们认为更多时候这种磁场的变化特征是高速流挤压背景等离子体磁场造成的,是相互作用的结果.当偶极化锋面形成后,由类似间断面的磁场界面反射的热离子产生抗磁效应,可能对B_z下降形成部分贡献,而B_z增加则是高速流携带磁通量堆积的效果.     

基于COSMIC掩星精密定轨数据的等离子体层电子含量研究

等离子体层是日地环境重要的组成部分.本文利用COSMIC掩星精密定轨数据经处理后得到的podTec文件获取等离子体层电子含量(PEC)对等离子体层进行研究.将podTec数据进行处理后获得的PEC(pod-PEC)和IRI-Plas经验模型提供的PEC(IRI-PEC)进行对比,发现pod-PEC与IRI-PEC符合得...     

磁尾等离子体团型结构的数值模拟

考虑横越磁尾不同区域的数密度与离子温度的分布特点,取宁静磁尾温度、密度呈同样形态的非均匀分布,作为模拟计算的初态,对初始By为不同分布的3个算例作模拟计算．数值结果展示了3类磁结构的演化特征．考察磁尾中性片一个给定点的磁场变化,做出3个算例典型事件的磁场矢端图．它们从另一个侧面展示了磁尾通量绳型等离子体团、具有复杂闭合磁力线位形类似于“闭合环”的等离子体团,以及二维“磁岛”型等离子体团的特点．观测表明,多数磁尾等离子体团为具有强核心场的通量绳结构．通过跟踪一个通量绳型等离子体团的发展,作出等离子体团各方向速度与磁场强度随x演化的曲线．其中,vx与磁场强度|B|在近尾至中尾的计算值与Geotail卫星资料统计分析结果大致相符．此外,与Jin等取初始温度为均匀分布的计算结果相比,本文给出的通量绳型等离子体团,其内温度较高、密度较低,与资料分析结果的偏离也随之减小．     

多谱段全日面极紫外成像仪

在极紫外波段对太阳进行成像观测是研究太阳活动、日冕中等离子体物理特性的重要手段.传统极紫外成像仪或光谱仪无法同时实现高光谱分辨率和大视场的太阳成像.本文设计了一种新型太阳极紫外多谱段成像系统,采用无狭缝光栅分光方式实现了高光谱分辨率和空间分辨率的全日面成像,成像视场可达47',光谱分辨率每像素2×10-3 nm,空间分辨率每像素1.4',全日面时间分辨率优于60s.通过分析谱线的全日面成像图和系统响应,表明成像仪能大范围的观测太阳活动形态演化,为太阳物理研究和空间天气预报提供更完整的观测数据.      

中国上空夜间电离层等离子体泡群演化过程的多设备观测

利用子午工程富克站（19.5°N, 109.1°E）全天空气辉成像仪、VHF雷达、三亚站（18.4°N, 109.6°E）数字测高仪及C/NOFS卫星观测数据，对2014年3月30日中国上空的等离子体泡进行了研究。结果表明，当天夜间观测到一个等离子体泡群，约由9个等离子体泡组成，发生在日落后，一直持续到午夜后。其自西向东运动，南北向最大尺度超过1200 km，东西向绵延超过1400 km，在演化中部分结构融合在一起。等离子体泡被气辉成像仪观测到的同时，数字测高仪及VHF雷达观测到了相应扩展F及羽毛状不规则结构。同时，C/NOFS卫星检测到相应电子密度耗散。这表明，该等离子体泡同时被地基光学观测、无线电探测及C/NOFS卫星观测到。研究结果给出了多仪器同时观测到的等离子体泡群演化过程，丰富了多仪器融合研究电离层不规则体的内容。     

电子环束流对航天器表面电位和等离子体鞘层的影响

采用二维三分量静电粒子模拟程序研究了电子环束流对低轨道磁化等离子体中运行的航天器表面电位和等离子体鞘层结构的影响.当有电子束流平行磁场入射时,航天器表面所带负电位的绝对值将增大.电子束流的速度和密度的增加将使航天器表面负电位绝对值增加很快.与此同时等离子体鞘层的尺度也将增大,形状将由向尾部延伸的“泪滴”状变成向两侧展开的“机翼”状.当电子环束流以相对于磁场成一定角度斜入射时,由于磁场的约束作用,航天器表面负电位的绝对值将随入射角增大而减小.      

第23太阳活动周太阳极紫外辐射与磁暴相关性分析

统计第23个太阳活动周内中等及以上强度（Dst_min<-50nT）的磁暴事件,线性拟合分析磁暴主相DDst_min和达到DDst_min前一个表征太阳极紫外辐射强度的F_10.7之间的相关性.结果表明:随着太阳极紫外辐射增强,DDst_min<-50nT的磁暴出现的总数增多,在弱、中等和强太阳极紫外辐射条件下,其数量分别为56,84和85;随着太阳极紫外辐射增强,强磁暴（-200nT ≤ Dst_min<-100nT）和大磁暴（Dst_min<-200nT）发生的数量和相对发生率呈增长趋势,尤其是大磁暴数目（1,4,12）和相对发生率（1.79%,4.76%,14.12%）明显呈增长趋势;大磁暴（|Dst_min|）与太阳极紫外辐射（F_10.7）之间存在中度正相关关系,其相关系数为0.532,并且主要体现在大磁暴（|Dst_min|）与强太阳极紫外辐射（F_10.7）之间的中度正相关性,其相关系数为0.582.大磁暴与强太阳极紫外辐射之间的相关性可为空间天气预报提供参考依据.      

Magnetospheric Physics in China:2014—2015

In the past two years, much progress is made in magnetospheric physics by using the data of Double Star Program, Cluster, THEMIS, RBSP, Swarm missions etc., or by computer simulations. This paper briefly reviews these works based on papers selected from the 191 publications from January 2014 to December 2015. The subjects cover various sub-branches of magnetospheric physics, including geomagnetic storm, magnetospheric substorm, magnetic reconnection, solar windmagnetosphere-ionosphere interaction, radiation belt, outer magnetosphere, magnetotail, plasmasphere, geomagnetic field, auroras and currents.      

A study of the plasmasphere density distribution using computed tomography methods from the EUV radiation data

In this paper, we introduce a new topic for imaging plasmasphere density with CT techniques. Both parallel-beam and fan-beam reconstruction formulas are derived with a special weighting function. Different from the traditional X-ray CT, the extreme ultraviolet (EUV) radiation may be totally absorbed by the Earth. Only the portion between the Earth and the detector enters the EUV sensor and be measured. The key step in our derivation is to remove the complete absorption effect with a specific weighting function. Computer-simulation studies are present to verify our formulas for the plasmasphere density.     

Effect of “Noisy” sun conditions on aircrew radiation exposure

In computer codes used to estimate the aircrew radiation exposure from galactic cosmic radiation, a quiet sun model is usually assumed. A revised computer code (PCAIRE ver. 8.0f) is used to calculate the impact of noisy sun conditions on aircrew radiation exposure. The revised code incorporates the effect of solar storm activity, which can perturb the geomagnetic field lines, altering cutoff rigidities and hence the shielding capability of the Earth’s magnetic field. The effect of typical solar storm conditions on aircrew radiation exposure is shown to be minimal justifying the usual assumptions.     

太阳活动突发过程对临近空间大气影响的模拟

空间天气对地球及近地空间具有重要影响,大的空间天气事件对中上层大气动力学和成分具有不同的影响。利用全大气耦合模式WACCM,针对太阳耀斑、太阳质子、地磁暴三类事件,以太阳活动平静期2015年5月10-14日的GEOS-5数据为模式背景场,通过F_10.7、离子产生率、Kp及Ap指数设置,分别模拟三类事件对临近空间大气温度、密度和臭氧的影响。结果表明耀斑事件在三类事件中对临近空间大气温度和密度的影响最为显著。平流层大气温度增加是由耀斑辐射增强引起平流层臭氧吸收紫外辐射发生的光化学反应所致,耀斑事件引起平流层和低热层温度增加约为2～3 K,低热层大气相对密度增加在6%以内;太阳质子事件及磁暴事件主要影响低热层,但太阳质子事件和磁暴事件对低热层温度扰动不大于1 K。     

Whistler studies of the plasmasphere shape and dynamics

Whistler studies of the plasmapause/plasmasphere are traced from their beginnings during the IGY through the early 1960's, when extensive data from Antarctica became available. Highlights of this period include discovery of the ‘knee’ in the equatorial electron density profile, initial comparisons with results from the Lunik probes, identification of magnetic storm effects, and discovery of the duskside bulge, or region of larger plasmasphere radius, as well as smaller-scale (Δφ ≈ 20°) variations in radius with longitude. In the mid-1960's, whistlers provided the first evidence of cross-L plasma drift patterns in the outer plasmasphere. From a present day perspective, the plasmasphere is seen as a region penetrated, perhaps most efficiently in the dusk sector, by the unsteady component of high latitude electric fields. In the pre-dawn sector, post substorm outward drifts may be an aftereffect of the shielding of the plasmasphere against the steadier components of the substorm electric fields. The available indirect whistler evidence of plasmasphere erosion during large disturbances suggests that erosion occurs primarily in the dusk-premidnight sector.     

Statistical study of the time delay of ionospheric TEC storms to geomagnetic storms in Taoyuan,Taiwan

We have studied the time delay of ionospheric storms to geomagnetic storms at a low latitude station Taoyuan (25.02°N, 121.21°E), Taiwan using the Dst and TEC data during 126 geomagnetic storms from the year 2002 to 2014. In addition to the known local time dependence of the time delay, the statistics show that the time delay has significant seasonal characteristics, which can be explained within the framework of the seasonal characteristics of the ionospheric TEC. The data also show that there is no correlation between the time delay and the intensity of magnetic storms. As for the solar activity dependence of the time delay, the results show that there is no relationship between the time delay of positive storms and the solar activity, whereas the time delay of negative storms has weakly negative dependence on the solar activity, with correlation coefficient −0.41. Especially, there are two kinds of extreme events: pre-storm response events and long-time delay events. All of the pre-storm response events occurred during 15–20 LT, manifesting the Equator Ionospheric Anomaly (EIA) feature at Taoyuan. Moreover, the common features of the pre-storm response events suggest the storm sudden commencement (SSC) and weak geomagnetic disturbance before the main phase onset (MPO) of magnetic storms are two main possible causes of the pre-storm response events. By analyzing the geomagnetic indices during the events with long-time delay, we infer that this kind of events may not be caused by magnetic storms, and they might belong to ionospheric Q-disturbances.     

Plasma transport in the plasmasphere

The plasmasphere is filled with very low energy plasma upwelling from the topside ionosphere. The field-aligned distribution of this thermal ionospheric plasma is controlled by the gravitational and centrifugal potential distribution. There are two extreme types of hydrostatic plasma distribution in this field-aligned potential : the Diffusive Equilibrium distribution and the Exospheric Equilibrium distribution corresponding respectively to a saturated and to an almost empty magnetic flux tube. As a result of pitch angle scattering by Coulomb collisions an increasing number of ions escaping from the ionosphere are stored on trapped orbits with mirror points at high altitudes in the low density region. As a result of collisions the field-aligned density distribution gradually changes from exospheric equilibrium with a highly anisotropic pitch angle (cigar like) distribution to a diffusive equilibrium with a nearly isotropic pitch angle distribution. It is shown that the suprathermal ions become anisotropic much more slowly than ions of energies smaller than 1 eV. The Coulomb collision times have been estimated for flux tubes at different L values. A numerical simulation of the flux tube refilling process has been presented. The diurnal variation of the equatorial plasma density has been illustrated for plasma elements convected along drift paths which have a large dawn- dusk asymetry. The formation of a Light Ion Trough is discussed. Finally, evidence has also been given for the existence of a ‘plasmaspheric wind’ corresponding to a slow subsonic and continuous radial expansion of the plasma stored in the plasmasphere.     

Plasmasphere thermal structure as measured by ISEE-1 and DE-1

Characteristics of plasmaspheric ion thermal structure are presented from a statistical survey of low-energy of (< 50 eV) ion measurements made by the Retarding Ion Mass Spectrometer (RIMS) on the DE-1 satellite. Morning and evening results are compared to illustrate diurnal trends. Typical day side temperatures range from about 4000 K in the inner plasmasphere to over 10000 K in the outer plasmasphere, while corresponding evening side temperatures range from near 2000 K to over 10000 K. Magnetic activity is found to affect the morning and evening sides somewhat differently. Temperatures are found to remain constant or increase with altitude along magnetic field lines, depending on local time and L shell. Thermal equilibrium between H+ and He+ prevails to a high degree throughout the plasmasphere. Ion temperatures from the Plasma Composition Experiment (PCE) on ISEE-1 are generally consistent with those from DE-1/RIMS, but are lower and tend to indicate more large scale structure on the day side.     

太阳风速度及日球电流片对CME渡越时间的影响

基于1996-2005年88个引起重大地磁暴的CME(日冕物质抛射)事件、1996-2000年的47个CME事件以及1997-2002年的29个全晕状CME事件,结合ACE卫星在1AU处的太阳风和行星际磁场观测资料以及Wilcox Solar Observatory(WSO)天文台的太阳光球层磁图,分析了背景太阳风速度和日球电流片对CME到达1AU处渡越时间预报误差的影响.结果表明,背景太阳风速度与CME渡越时间误差并没有明显的相关性,在考虑了磁云通量管轴相对黄道面夹角的影响后相关性依然不明显.然而日球电流片对CME渡越时间却有明显的影响,对于初速度较小的异侧CME事件,其渡越时间大于同侧事件;而对于具有较大初速度的CME事件,异侧事件的渡越时间明显小于同侧事件.研究结果表明,CME与太阳风以及日球电流片的相互作用并不是简单的对流相互作用,造成高速CME异侧事件快于同侧事件到达地球的因素非常复杂,有待深入研究.