留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

Magnetospheric Physics in China:2012-2014

Cao Jinbin Yang Junying

Cao Jinbin, Yang Junying. Magnetospheric Physics in China:2012-2014[J]. 空间科学学报, 2014, 34(5): 605-647. doi: 10.11728/cjss2014.05.605
引用本文: Cao Jinbin, Yang Junying. Magnetospheric Physics in China:2012-2014[J]. 空间科学学报, 2014, 34(5): 605-647. doi: 10.11728/cjss2014.05.605
Cao Jinbin, Yang Junying. Magnetospheric Physics in China:2012-2014[J]. Journal of Space Science, 2014, 34(5): 605-647. doi: 10.11728/cjss2014.05.605
Citation: Cao Jinbin, Yang Junying. Magnetospheric Physics in China:2012-2014[J]. Journal of Space Science, 2014, 34(5): 605-647. doi: 10.11728/cjss2014.05.605

Magnetospheric Physics in China:2012-2014

doi: 10.11728/cjss2014.05.605
详细信息
    通讯作者:

    Cao Jinbin,E-mail:jbcao@nssc.ac.cn

  • 中图分类号: P352

Magnetospheric Physics in China:2012-2014

More Information
    Corresponding author: Cao Jinbin,E-mail:jbcao@nssc.ac.cn
  • 摘要: In the past two years, many progresses have been made in magnetospheric physics by using the data of Double Star Program, Cluster, THEMIS and RBSP missions, or by computer simulations. This paper briefly reviews these works based on papers selected from the 126 publications from March 2012 to March 2014. The subjects cover various sub-branches of magnetospheric physics, including geomagnetic storm, magnetospheric substorm and magnetic reconnection.

     

  • [1] Li H, Wang C, Xu W Y, et al.Characteristics of magnetospheric energetics during geomagnetic storms[J].J.Geophys.Res., 2012, 117, A04225, doi: 10.1029/2012JA017584
    [2] He Z H, Chen T, Liu Z X, et al.Spectral characteristics of the plasma dispersionless injection during the storm recovery phase on 11 March 1998[J].J.Geophys.Res.,2012, 117, A11210, doi: 10.1029/2012JA017760
    [3] Zhima Zeren, Cao Jinbin, Liu Wenlong, et al.DEMETER observations of high-latitude chorus waves penetrating the plasmasphere during a geomagnetic storm[J].Geophys.Res.Lett., 2013, 40(22):5827-5832
    [4] Zeren Zhima, Cao Jinbin, Liu Wenlong, et al.Storm-time evolution of ELF/VLF waves observed by DEMETER satellite[J].J.Geophys.Res., 2014, doi: 10.1002/2013JA-019237
    [5] Zhao X D, Du A M, Xu W Y.The magnetic local time distribution of ring current during the geomagnetic storm[J].Planet.Space Sci., 2013, 78:52-63
    [6] Zhang Qinghe, Zhang Beichen, Lockwood Michael, et al.Direct observations of the evolution of polar cap ionization patches[J].Science, 2013, 339(6127):1597-1600
    [7] Peng Z, Wang C, Yang Y F, et al.Substorms under northward interplanetary magnetic field: Statistical study[J].J.Geophys.Res.Space Phys., 2013, 118:364-374
    [8] Liu J M, Kamide Y, Zhang B C, et al.THEMIS and ground-based observations of successive substorm onsets following a super-long growth phase[J].Ann.Geophys.,2013, 31:835-843
    [9] Ma Yonghui, Shen Chao, Angelopoulos Vassilis, et al.Tailward leap of multiple expansions of the plasma sheet during a moderately intense substorm: THEMIS observations[J].J.Geophys.Res., 2012, 117, A07219, doi: 10.1029/2012JA017768
    [10] Yao Z H, Pu Z Y, Fu S Y, et al.Mechanism of substorm current wedge formation: THEMIS observations[J].Geophys.Res.Lett., 2012, 39(13), L13102, doi: 10.1029/2012GL052055
    [11] Cao X, Pu Z Y, Du A M, et al.Auroral streamers implication for the substorm progression on September 14,2004[J].Planet.Space Sci., 2012, 71:119-124
    [12] Cao X, Pu Z Y, Du A M, et al.On the retreat of near-Earth neutral line during substorm expansion phase:a THEMIS case study during the 9 January 2008 substorm[J].Ann.Geophys., 2012, 30:143-151
    [13] Cao Jinbin, Ma Yuduan.Parks George, et al.Kinetic analysis of the energy transport of bursty bulk flows in the plasma sheet[J].J.Geophys.Res.Space Phys., 2013,118:313-320
    [14] Zhou M, Deng X H, Huang S Y.Electric field structure inside the secondary island in the reconnection diffusion region[J].Phys.Plasmas, 2012, 19, 042902, doi: 10.1063/1.3700194
    [15] Zhou M, Deng X H, Pang Y, et al.Revealing the substructures of the magnetic reconnection separatrix via particle-in-cell simulation[J].Phys.Plasmas, 2012, 19,072907, doi: 10.1063/1.4739283
    [16] Zhou Meng, Su Wei, Deng Xiaohua, et al.Anomalous resistivity associated with secondary islands in the reconnection region[J].Chin.Phys.Lett., 2012, 29, 089401,doi: 10.1088/0256-307X/29/8/089401
    [17] Huang S Y, Zhou M, Sahraoui F, et al.Observations of turbulence within reconnection jet in the presence of guide field[J].Geophys.Res.Lett., 2012, 39, L11104,doi: 10.1029/2012GL052210
    [18] Huang S Y, Vaivads A, Khotyaintsev Y V, et al.Electron acceleration in the reconnection diffusion region: Cluster observations[J].Geophys.Res.Lett., 2012, 39, L11103,doi: 10.1029/2012GL051946
    [19] Huang Shiyong, Deng Xiaohua, Zhou Meng, et al.Energetic electrons associated with magnetic reconnection in the sheath of interplanetary coronal mass ejection[J].Chin.Sci.Bull., 2012, 57(12):1455-1460
    [20] Zhang Q H, Dunlop M W, Lockwood M, et al.Inner plasma structure of the low-latitude reconnection layer[J].J.Geophys.Res., 2012, 117, A08205, doi: 10.1029/2012-JA017622
    [21] Zhang Qinghe, Liu Ruiyuan, Yang Huigen, et al.SuperDARN CUTLASS Finland radar observations of highlatitude magnetic reconnections under northward Interplanetary Magnetic Field (IMF) conditions[J].Sci.China: Tech.Sci., 2012, 55(5):1207-1216
    [22] Huang Can, Lu Quanming, Zhang Hui, et al.Kinetic simulations of the structures of magnetic island in multiple X line guide field reconnection [J].Phys.Plasmas, 2012, 19,042111; doi: 10.1063/1.4704799
    [23] Huang C, Quanming Lu, Wu M Y, Lu S, Wang S.Out-of-plane electron currents in magnetic island formed during collisionless magnetic reconnection [J].J.Geophys.Res.,2013, 118:991-996
    [24] Lu San, Lu Quanming, Huang Can, et al.The transfer between electron bulk kinetic energy and thermal energy in collisionless magnetic reconnection [J].Phys.Plasmas,2013, 20, 061203, doi: 10.1063/1.4811119
    [25] Lu Quanming, Lu San, Huang Can, et al.Self-reinforcing process of the reconnection electric field in the electron diffusion region and onset of collisionless magnetic reconnection[J].Plasma Phys.Control.Fusion, 2013, 55, 085019doi: 10.1088/0741-3335/55/8/085019
    [26] Huang Can, Lu Quanming, Lu San, et al.The effect of a guide field on the structures of magnetic islands formed during multiple X line reconnections: Two-dimensional particle-in-cell simulations[J].J.Geophys.Res.: Space Phys., 2014, 119:798-807
    [27] Cao J B, Wei X H, Duan A Y, et al.Slow magnetosonic waves detected in reconnection diffusion region in the Earth's magnetotail [J].J.Geophys.Res.Space Phys.,2013, 118:1659-1666
    [28] Fu H S, Cao J B, Khotyaintsev Yu V, et al.Dipolarization fronts as a consequence of transient reconnection: In situ evidence[J].Geophys.Res.Lett., 2013, 40:6023-6027
    [29] Fu H S, Khotyaintsev Yu V, Vaivads A, et al.Energetic electron acceleration by unsteady magnetic reconnection[J].Nature Phys., 2012, 9:426-430
    [30] Wang Rongsheng, Du Aimin, Nakamura Rumi, et al.Observation of multiple sub-cavities adjacent to single separatrix[J].Geophys.Res.Lett., 2013, 40:2511-2517
    [31] Guo Ruilong, Pu Zuyin, Xiao Chijie, et al.Separator reconnection with antiparallel/component features observed in magnetotail plasmas[J].J.Geophys.Res.Space Phys.,2013, 118:6116-6126
    [32] Zhong J, Pu Z Y, Dunlop M W, et al.Three-dimensional magnetic flux rope structure formed by multiple sequential X-line reconnection at the magnetopause [J].J.Geophys.Res.Space Phys., 2013, 118:1904-1911
    [33] Xia Zhiyang, Wang Chi, Peng zhong, et al.Relationship between interplanetary magnetic field clock angle and magnetosphere open magnetic flux[J].Chin.J.Space Sci., 2014, 34(1):24-28
    [34] Sun T R, Wang C, Borodkova N L, et al.Geosynchronous magnetic field responses to fast solar wind dynamic pressure enhancements: MHD field model[J].Ann.Geophys.,2012, 30:1285-1295
    [35] Sun T R, Wang C, Wang Y.Different Bz response regions in the nightside magnetosphere after the arrival of an interplanetary shock: Multipoint observations compared with MHD simulations[J].J.Geophys.Res., 2012, 117,A05227, doi: 10.1029/2011JA017303
    [36] Xu Dan, Chen Tao.Constraints on electron temperature anisotropies in sheath regions of interplanetary shocks[J].Planet.Space Sci., 2012, 62(1):100-103
    [37] Fu H S, Cao J B, Zong Q G, et al.The role of electrons during chorus intensification: Energy source and energy loss[J].J.Atmos.Sol.Terr.Phys., 2012, 80:37-47
    [38] Fu H S, Cao J B, Mozer F S, et al.Chorus intensification in response to interplanetary shock[J].J.Geophys.Res.Space Phys., 2012, 117, A01203, doi: 10.1029/2011JA016913
    [39] Zou Z M, Cao J B, Li Y.Influence of solar wind disturbance on ring current and auroral electrojet indexes[J].Chin.J.Space Sci., 2012, 32(1):14-19
    [40] Wang H, Lühr H.Seasonal variation of the ion upflow in the topside ionosphere during SAPS (Subauroral Polarization Stream) periods[J].Ann.Geophys., 2013, 31:1521-1534
    [41] Li Huimin, Pang Ye, Huang Shiyong, et al.The turbulence evolution in the high β region of the Earth's foreshock[J].J.Geophys.Res.Space Phys., 2013, 118:7151-7159
    [42] Zhang Qingmei, Sun Tianran, Zhang Jiaojiao, et al.Response of the ionospheric equivalent current systems to interplanetary shocks[J].Chin.J.Space Sci., 2013,33(5):486-493
    [43] Zhang Qingmei, Wang Chi, Li Hui, et al.Plasma transport between the ionosphere and plasmasphere in response to solar wind dynamic pressure pulsation[J].Chin.Sci.Bull., 2013, 58(33):4126-4132
    [44] Zhang J J, Wang C, Tang B B, et al.Effect of the solar wind conditions on the ionospheric equivalent current systems[J].Ann.Geophys., 2013, 31:489-501
    [45] Wang C, Xia Z Y, Peng Z, et al.Estimating the open magnetic flux from the interplanetary and ionospheric conditions[J].J.Geophys.Res.Space Phys., 2013, 118:1899-1903
    [46] Wang Chi, Zhang Qingmei, Chi P J, et al.Simultaneous observations of plasmaspheric and ionospheric variations during magnetic storms in 2011: First result from Chinese Meridian Project[J].J.Geophys.Res.Space Phys., 2013,118:99-104
    [47] Li H, Wang C, Peng Z.Solar wind impacts on growth phase duration and substorm intensity: A statistical approach[J].J.Geophys.Res.Space Phys., 2013, 118:4270-4278
    [48] Li L Y, Cao J B, Yang J Y, et al.Joint responses of geosynchronous magnetic field and relativistic electrons to external changes in solar wind dynamic pressure and interplanetary magnetic field[J].J.Geophys.Res.Space Phys., 2013, 118:1472-1482
    [49] Zong Q G, Wang Y F, Zhang H, et al.Fast acceleration of inner magnetospheric hydrogen and oxygen ions by shock induced ULF waves[J].J.Geophys.Res., 2012,117, A11206, doi: 10.1029/2012JA018024
    [50] Zhong J, Xie L, Zhang H, et al.Chang'E-1 observations of pickup ions near the Moon under different interplanetary magnetic field conditions[J].Planet.Space Sci.,2013, 79/80:56-63
    [51] Luo H, Chen G X, Du A M, et al.Solar wind dependence of energy coupling between solar wind and magnetosphere during intense northward IMFs[J].Planet.Space Sci.,2013, 79/80:82-89
    [52] Dong YiXuan, Cao JinBin, Liu WenLong, et al.Response of magnetic fields at geosynchronous orbit and on the ground to the sudden changes of IMF Bz[J].Sci.China:Tech.Sci., 2014, 57(2):360-367
    [53] Shi Q Q, Zong Q G, Fu S Y, et al.Solar wind entry into the high-latitude terrestrial magnetosphere during geomagnetically quiet times[J].Nature Commun., 2013,1466, doi: 10.1038/ncomms2476
    [54] Wang Shan, Zong Qiugang, Zhang Hui.Cases and statistical study on Hot Flow Anomalies with Cluster spacecraft data[J].Sci.China: Tech.Sci., 2012, 55(5):1402-1418
    [55] Wang Shan, Zong Qiugang and Zhang Hui.Cluster observations of hot flow anomalies with large flow deflections:1.Velocity deflections [J].J.Geophys.Res.Space Phys.,2013, 118:732-743
    [56] Wang Shan, Zong Qiugang, Zhang Hui.Cluster observations of hot flow anomalies with large flow deflections: 2 Bow shock geometry at HFA edges[J].J.Geophys.Res.Space Phys., 2013, 118:418-433
    [57] Shi Run, Ni Binbin, Gu Xudong, et al.Resonance zones and quasi-linear diffusion coefficients for radiation belt energetic electron interaction with oblique chorus waves in the Dungey magnetosphere [J].Phys.Plasmas, 2012,19(7): 072904, doi: 10.1063/1.4737105
    [58] Xiao Fuliang, Zhang Sai, Su Zhenpeng, et al.Rapid acceleration of radiation belt energetic electrons by Zmode waves[J].Geophys.Res.Lett., 2012, 39, L03103,doi: 10.1029/2011GL050625
    [59] Su Zhenpeng, Zhu Hui, Xiao Fuliang, et al.Bounceaveraged advection and diffusion coefficients for monochromatic electromagnetic ion cyclotron wave: Comparison between test-particle and quasi-linear models[J].J.Geophys.Res., 2012, 117, A09222, doi: 10.1029/2012JA017917
    [60] Su Zhenpeng, Xiao Fuliang, Zheng Huinan, et al.Nonstorm time dynamics of electron radiation belts observed by the Van Allen Probes[J].Geophys.Res.Lett., 2014,41:229-235
    [61] Zhou Chen, Yang Guobin, Ni Binbin, et al.Strong diffusion limit in the realistic magnetosphere: Dependence on geomagnetic condition and spatial location[J].J.Geophys.Res.Space Phys., 2013, 118:118-131
    [62] Zhu Hui, Su Zhenpeng, Xiao Fuliang, et al.Nonlinear interaction between ring current protons and electromagnetic ion cyclotron waves[J].J.Geophys.Res., 117,A12217, doi: 10.1029/2012JA018088
    [63] Yuan C J, Zong Q G.Quantitative aspects of variations of 1.5–6.0MeV electrons in the outer radiation belt during magnetic storms[J].J.Geophys.Res., 2012, 117, A11208,doi: 10.1029/2011JA017346
    [64] Yuan Chongjing, Zong Qiugang.Relativistic electron fluxes dropout in the outer radiation belt under different solar wind conditions[J].J.Geophys.Res.Space Phys.,2013, 118:7545-7556
    [65] Yuan Chongjing, Zong Qiugang.The double-belt outer radiation belt during CME- and CIR-driven geomagnetic storms[J].J.Geophys.Res.Space Phys., 2013, 118:6291-6301
    [66] Zong Qiugang, Yuan Chongjing, Wang Yongfu, et al.Dynamic variation and the fast acceleration of particles in Earth's radiation belt[J].Sci.China Earth Sci., 2013,56(7):1118-1140
    [67] Wang Chi, Li Hui, Guo Xiaocheng, et al.Numerical study on the response of the Earth's magnetosphere-ionosphere system to a super solar storm[J].Sci.China: Earth Sci.,2012, 55(6):1037-1042
    [68] Tang B B, Wang C, Guo X C.Bow shock and magnetopause contributions to the magnetospheric current system: Hints from the Cluster observations[J].J.Geophys.Res., 2012, 117, A01214, doi: 10.1029/2011JA016681
    [69] Li Wenya, Wang Chi, Tang Binbin, et al.Global features of Kelvin-Helmholtz waves at the magnetopause for northward interplanetary magnetic field[J].J.Geophys.Res.Space Phys., 2013, 118:5118-5126
    [70] Liu Y H, Fraser B J, Menk F W.Pc2 EMIC waves generated high off the equator in the dayside outer magnetosphere[J].Geophys.Res.Lett., 2012, 39, L17102,doi: 10.1029/2012GL053082
    [71] Zhang Q H, Zhang B C, Moen J, et al.Polar cap patch segmentation of the tongue of ionization in the morning convection cell[J].Geophys.Res.Lett., 2013, 40:2918-2922
    [72] Pang Y, Lin M H, Deng X H, et al.Deformation of plasma bubbles and the associated field aligned current system during substorm recovery phase[J].J.Geophys.Res., 2012, 117, A09223, doi: 10.1029/2011JA017410
    [73] Zhou Meng, Deng Xiaohua, Ashour-Abdalla Maha, et al.Cluster observations of kinetic structures and electron acceleration within a dynamic plasma bubble[J].J.Geophys.Res.Space Phys., 2013, 118:674-684
    [74] Huang S Y, Zhou M, Deng X H, et al.Kinetic structure and wave properties associated with sharp dipolarization front observed by Cluster[J].Ann.Geophys., 2012, 30:97-107
    [75] Guo Jiuling, Shen Chao, Liu Zhenxing.Simulation and comparison of particles entering the plasma sheet under northward and southward IMF conditions[J].Chin.Sci.Bull., 2012, 57(34):3295-3300
    [76] Rong Z J, Wan W X, Shen C, et al.Profile of strong magnetic field Bycomponent in magnetotail current sheets[J].J.Geophys.Res., 2012, 117, A06216, doi: 10.1029/2011JA017402
    [77] Shen C, Rong Z J, Dunlop M W, et al.Spatial gradients from irregular, multiple-point spacecraft configurations[J].J.Geophys.Res., 2012, 117, A11207, doi: 10.1029/2012JA018075
    [78] Shen C, Rong Z J, Dunlop M.Determining the full magnetic field gradient from two spacecraft measurements under special constraints[J].J.Geophys.Res., 2012, 117,A10217, doi: 10.1029/2012JA018063
    [79] Zheng H, Fu S Y, Zong Q G, et al.Observations of ionospheric electron beams in the plasma sheet[J].Phys.Rev.Lett., 2012, 109, 205001, doi: 10.1103/PhysRevLett.109.205001
    [80] Zhang Y C, Shen C, Liu Z X, et al.Two different types of plasmoids in the plasma sheet: Cluster multisatellite analysis application[J].J.Geophys.Res.Space Phys.,2013, 118:5437-5444
    [81] Wu Mingyu, Volwerk Martin, Lu Quanming, et al.The proton temperature anisotropy associated with bursty bulk flows in the magnetotail [J].J.Geophys.Res.Space Phys., 2013, 118:4875-4883
    [82] Wu Mingyu, Lu Quanming, Volwerk Martin, et al.A statistical study of electron acceleration behind the dipolarization fronts in the magnetotail [J].J.Geophys.Res.Space Phys., 2013, 118:4804-4810
    [83] Duan Aiying, Cao Jinbin, Ma Yuduan, et al.Cluster observations of large-scale southward movement and dawnward-duskward flapping of Earth's magnetotail current sheet[J].Sci.China: Tech.Sci., 2013, 56(1):194-204
    [84] Tian Tian, Zong Qiugang, Wang Yongfu, et al.Statistical study of the properties of the magnetic field and plasma in the Earth's magnetotail near lunar orbit[J].Sci.China:Tech.Sci., 2012, 55(9):2570-2577
    [85] Tian Anmin, Zong Qiugang, Shi Quanqi.Reconstruction of morningside plasma sheet compressional ULF Pc5 wave[J].Sci.China: Tech.Sci., 2012, 55(4):1092-1100
    [86] Tian A M, Zong Q G, Zhang T L, et al.Dynamics of longperiod ULF waves in the plasma sheet: Coordinated space and ground observations[J].J.Geophys.Res., 2012, 117,A03211, doi: 10.1029/2011JA016551
    [87] Wang Yongfu, Zong Qiugang.Study of the nose event on 11 April 2002 with UBK method[J].Sci.China: Tech.Sci., 2012, 55(7):1929-1942
    [88] Lu H Y, Cao J B, Zhou M, et al.Electric structure of dipolarization fronts associated with interchange instability in the magnetotail [J].J.Geophys.Res.Space Phys.,2013, 118:6019-6025
    [89] Cao Jinbin, Duan Aiying, Reme Henri, et al.Relations of the energetic proton fluxes in the central plasma sheet with solar wind and geomagnetic activities[J].J.Geophys.Res.Space Phys., 2013, 118:7226-7236
    [90] Li L Y, Yu J, Cao J B, et al.Rapid loss of the plasma sheet energetic electrons associated with the growth of whistler mode waves inside the bursty bulk flows[J].J.Geophys.Res.Space Phys., 2013, 118:7200-7210
    [91] Sun W J, Shi Q Q, Fu S Y, et al.Cluster and TC-1 observation of magnetic holes in the plasma sheet[J].Ann.Geophys., 2012, 30:583-595
    [92] Sun W J, Fu S Y, Parks G K, et al.Field-aligned currents associated with dipolarization fronts[J].Geophys.Res.Lett., 2013, 40:4503-4508
    [93] Zheng Hao, Fu Suiyan, Zong Quigang, et al.Downward current electron beams observed at the dipolarization front[J].Chin.Sci.Bull., 2013, 58(8):913-919
    [94] Rong Z J, Wan W X, Shen C, et al.Method for inferring the axis orientation of cylindrical magnetic flux rope based on single-point measurement[J].J.Geophys.Res.Space Phys., 2013, 118:271-283
    [95] Cao Jinbin, Wang Zhiqiang, Ma Yuduan, et al.Differences between onset times of Bursty Bulk Flows (BBFs) of two Cluster satellites in the magnetotail [J].Sci.China:Tech.Sci., 2012, 55(5):1178-1183
    [96] Yao Zhonghua, Sun W J, Fu S Y, et al.Current structures associated with dipolarization fronts[J].J.Geophys.Res.Space Phys., 2013, 118:6980-6985
    [97] Ma Yuduan, Cao Jinbin, Fu Huishan, et al.MHD and kinetic analysis of flow bursts in the Earth's plasma sheet[J].Sci.China: Tech.Sci., 2014, 57(1):55-66
    [98] Sun Weijie, Fu Suiyan, Shi Quanqi, et al.THEMIS observation of a magnetotail current sheet flapping wave[J].Chin.Sci.Bull., 2014, 59(2):154-161
    [99] Shang Wensai, Yao Zhonghua, Shi Quanqi, et al.Braking of high-speed flows in the magnetotail: THEMIS joint observations[J].Chin.Sci.Bull., 2014, 59(3):326-334
    [100] Xing Z Y, Yang H G, Han D S, et al.Poleward Moving Auroral Forms (PMAFs) observed at the Yellow River Station: A statistical study of its dependence on the solar wind conditions[J].J.Atmos.Sol.Terr.Phys., 2012,86:25-33
    [101] Xing Zanyang, Yang Huigen, Han Desheng, et al.Dayside poleward moving auroral forms and ionospheric convection under stable Interplanetary Magnetic Field (IMF)conditions[J].Sci.China: Tech.Sci., 2013, 56(4):910-916
    [102] Xing Zanyang, Yang Huigen, Wu Zhensen, et al.A parameter model of auroral emissions and particle precipitation near magnetic noon[J].Chin.J.Geophys., 2013,56(7):2163-2170
    [103] Qiu Qi, Yang Huigen, Lu Quanming, et al.Widths of dayside auroral arcs observed at the Chinese Yellow River Station[J].J.Atmos.Solar Terr.Phys., 2013, 102:222-227
    [104] Liu Jianjun, Hu Hongqiao, Han Desheng, et al.Response of nightside aurora to interplanetary shock from ground optical observation[J].Chin.J.Geophys., 2013,56(5):598-611
    [105] Shi R, Han D, Ni B, et al.Intensification of dayside diffuse auroral precipitation: contribution of dayside Whistlermode chorus waves in realistic magnetic fields[J].Ann.Geophys., 2012, 30:1297-1307
    [106] Hu Zejun, Yang Huigen, Hu Hongqiao, et al.The hemispheric conjugate observation of postnoon "bright spots"/auroral spirals[J].J.Geophys.Res.Space Phys., 2013,118:1428-1434
    [107] Zhang J J, Wang C, Tang B B.Modeling geomagnetically induced electric field and currents by combining a global MHD model with a local one-dimensional method[J].Space Weather, 2012, 10, S05005, doi: 10.1029/2012SW000772
    [108] Zhao H, Zong Q G.Seasonal and diurnal variation of geomagnetic activity: Russell-McPherron effect during different IMF polarity and/or extreme solar wind conditions[J].J.Geophys.Res., 2012, 117, A11222, doi: 10.1029/2012JA017845
    [109] Wu Qi, Hong Minghua, Du Aimin, et al.Multi-point joint observations of long-time continual Pc5 ULF waves on 3 March 2007[J].Chin.J.Geophys., 2012, 55(11):3568-3575
    [110] Zhang Jiaojiao, Wang Chi, Tang Binbin.Improved method to derive equivalent current systems from global MHD simulations[J].Sci.China:Earth Sci., 2014,57(1):167-173
    [111] Du J, Wang C, Zhang T L, et al.Asymmetries of the magnetic field line draping shape around Venus[J].J.Geophys.Res.Space Phys., 2013, 118:6915-6920
    [112] Zheng Ling, Fu Suiyan, Zong Quigang, et al.Solar cycle dependence of the seasonal variation of auroral hemispheric power[J].Chin.Sci.Bull., 2013, 58(4/5):525-530
    [113] Luo Hao, Chen Gengxiong, Du Aimin.Multipoint observations of Pi2 pulsations and correlation with dynamic processes in the near-Earth magnetotail on March 18,2009[J].Sci.China: Earth Sci., 2014, 57(2):359-371
    [114] Xiao Fuliang, Zong Qiugang, Su Zhenpeng.Determining the mechanism of cusp proton aurora[J].Sci.Rep., 2013,3:1654
    [115] Liu W, Cao J B, Li X, et al.Poloidal ULF wave observed in the plasmasphere boundary layer[J].J.Geophys.Res.Space Phys., 2013, 118:4298-4307
    [116] Yuan Zhigang, Xiong Ying, Pang Ye, et al.Wave-particle interaction in a plasmaspheric plume observed by a Cluster satellite[J].J.Geophys.Res., 2012, 117, A03205,doi: 10.1029/2011JA017152
    [117] Yuan Zhigang, Xiong Ying, Wang Dedong, et al.Characteristics of precipitating energetic ions/electrons associated with the wave-particle interaction in the plasmaspheric plume[J].J.Geophys.Res., 2012, 117, A08324,doi: 10.1029/2012JA017783
    [118] Yuan Zhigang, Xiong Ying, Zhang Shunrong, et al.Ionospheric characteristics associated with waveparticle interactions in a SED plume during a super geomagnetic storm[J].J.Atmos.Sol-Terr.Phys., 2013, 95/96:96-101
    [119] Yuan Zhigang, Li Ming, Xiong Ying, et al.Simultaneous observations of precipitating radiation belt electrons and ring current ions associated with the plasmaspheric plume[J].J.Geophys.Res.Space Phys., 2013, 118:4391-4399
    [120] Yuan Zhigang, Xiong Ying, Huang Shiyong, et al.Cold electron heating by EMIC waves in the plasmaspheric plume with observations of the Cluster satellite[J].Geophys.Res.Lett., 2014, 41, doi: 10.1002/2014GL059241
    [121] He Fei, Zhang Xiaoxin, Chen Bo, et al.Moon-based EUV imaging of the Earth's plasmasphere: Model simulations[J].J.Geophys.Res.Space Phys., 2013, 118:7085-7103
    [122] Li W Y, Guo X C, Wang C.Spatial distribution of Kelvin-Helmholtz instability at low-latitude boundary layer under different solar wind speed conditions[J].J.Geophys.Res., 2012, 117, A08230, doi: 10.1029/2012JA017780
    [123] Liu Y H, Fraser B J, Menk F W.EMIC waves observed by Cluster near the plasmapause[J].J.Geophys.Res.Space Phys., 2013, 118:5603-5615
    [124] Wei X H, Cao J B, Zhou G C, et al.Generation mechanism of the whistler-mode waves in the plasma sheet prior to magnetic reconnection [J].Adv.Space Res., 2013,52(1):205-210
    [125] Duan Suping, Liu Zhenxing, Angelopoulos Vassilis.Observations of kinetic Alfvén waves by THEMIS near a substorm onset[J].Chin.Sci.Bull., 2012, 57(12):1429-1435
    [126] Shi Q Q, Hartinger M, Angelopoulos V, et al.THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events [J].J.Geophys.Res.Space Phys., 2013, 118:284-298
  • 加载中
计量
  • 文章访问数:  1257
  • HTML全文浏览量:  0
  • PDF下载量:  2491
  • 被引次数: 0
出版历程
  • 收稿日期:  2014-06-15
  • 修回日期:  2014-07-21
  • 刊出日期:  2014-09-15

目录

    /

    返回文章
    返回