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1. A.Shalchi, et al., Random walk of magnetic field lines: Analytical theory versus simulations, Astrophysics and Space Science, 330, 2, 279-287.

2. Guo, J., et al., Statistical properties and geoefficiency of interplanetary coronal mass ejections and their sheaths during intense geomagnetic storms, J.Geophys.Res, 115, A09107.

3. Guo, J., et al., Interplanetary drivers of ionospheric prompt penetration electric fields., Journal of Atmospheric and Solar-Terrestrial Physics, doi:10.1016.

4. Guo, X.C., et al., Effect of the dawn-dusk interplanetary magnetic field B-y on the field-aligned current system, Journal of Geophysical Research, 115, 1.

5. Guo, X.C., et al., Global MHD simulation of the Kelvin‐Helmholtz instability at the magnetopause for northward interplanetary magnetic field, Journal of Geophysical Research, 115, 10.

6. He, Z.H, et al., The large scale magnetospheric electric field observed by Double Star TC-1, Ann.Geophys, 28, 1625-1631.

7. Hu, Y.Q., et al., Rotational asymmetry of earth's bow shock, Chinese Journal of Geophysics, 53, 2, 198-208.

8. Hu, Y.Q., et al., Electrodynamic coupling in the solar wind-magnetosphere-ionosphere system, Chinese Journal of Space Science, 30, 4, 321-332.

9. Jiang, et al., AMR Simulations of Magnetohydrodynamic Problems By the CESE Method In Curvilinear Coordinates, Solar Phys , 267, 463-491.

10. Jizhen, et al., A Comparison Study of Three CESE Schemes in MHD Simulation, CHIN.PHYS.LETT, 27, 8.

11. Kan, J.R., et al., Saturation of polar cap potential: Nonlinearity in quasi-steady solar wind-magnetosphere-ionosphere coupling, Journal of Geophysical Research, 115, 8.

12. L.Lu, et al., Comparisons between ion distributions retrieved from ENA images of the ring current and contemporaneous, multipoint ion measurements recorded in situ during the major magnetic storm of 15 May, 2005 , J.Geophys.Res.

13. Li, H., et al., Midday magnetopause shifts earthward of geosynchronous orbit during geomagnetic superstorms with Dst <=-300 nT, Journal of Geophysical Research, 115, 8.

14. Li, X.Y., et al., Statistics of the interplanetary magnetic fields observed at 0.72 AU and 1 AU, Chinese Journal of Space Science, 30, 4, 356-361.

15. Li, Z., et al., The “Same Side –Opposite Side Effect” of the Heliospheric Current Sheet in Ionospheric Negative Storm, Solar Phys , 263, 263–273.

16. Peng, Z., et al., Role of IMF B-x in the solar wind-magnetosphere-ionosphere coupling, Journal of Geophysical Research, 115, 8.

17. Richardson, J.D., et al., Plasma near the Heliosheath: Observations and Interpretations, Astrophysical Journal Letters, 711, 1, L44-L47.

18. Rong , Z.J., et al., The analytic properties of the flapping current sheets in the earth magnetotail, Planet.Space Sci., 58, 10, 1215-1229.

19. Rong, Z.J., et al., Statistical survey on the magnetic field in magnetotail current sheets: Cluster observations., Chinese Sci.Bull., 55, 2542-2547.

20. S.McKenna-Lawlor, Lu Li, et al., Moderate geomagnetic storm (21–22 January 2005) triggered by an outstanding coronal mass ejection viewed via energetic neutral atoms, J.Geophys.Res., 115.

21. Song W.B., et al., The heating of the solar transition region, Research in Astron.Astrophys, 10, 6, 529–532.

22. Song, W.B., et al., An Analytical Model to Predict the Arrival Time of Interplanetary CMEs, Solar Phys , 261, 311–320.

23. Wang, C., et al., New Chains of Space Weather Monitoring Stations in China, Space Weather, 8, 8.

24. Wang, C., et al., Interplanetary shock characteristics and associated geosynchronous magnetic field variations estimated from sudden impulses observed on the ground, Journal of Geophysical Research, 115, 9.

25. Wang, C., et al., Development of the Chinese Meridian Project, Chinese Journal of Space Science, 30, 4, 382-384.

26. Wang, C., et al., Case study of nightside magnetospheric magnetic field response to interplanetary shocks, Journal of Geophysical Research, 115, 10.

27. Wang Y., et al., Energetic Electrons Associated with Magnetic Reconnection in the Magnetic Cloud Boundary Layer, PHYSICAL REVIEW LETTERS, 105.


29. Y.C.Zhang, et al., Magnetic helicity of a ?ux rope in the magnetotail: THEMIS results, Ann.Geophys, 28, 1687-1693.

30. Zhang Y, et al., Predicting the shock arrival time using 1D-HD solar wind model., Chinese Sci Bull, 55, 1053-1058.

31. Zhang, L.Q., et al., X line distribution determined from earthward and tailward convective bursty flows in the central plasma sheet, J.Geophys.Res., 115.

32. Zhang, T.L., et al., Hemispheric asymmetry of the magnetic field wrapping pattern in the Venusian magnetotail, Geophysical Research Letters, 37, 14.

33. Zhao, X.H., et al., Multi-spacecraft observations of the 2008 January 2 CME in the inner heliosphere, The Astrophysical Journal, 714, 1133–1141.

34. Zuo, P.B., et al., Magnetic cloud boundary layer of 9 November 2004 and its associated space weather effects, J.Geophys.Res., 115, A10102.

35. 陈光明 等,利用星载加速度计数据反演高层大气密度的方法, 解放军理工大学学报(自然科学版), 11, 3, 371-376.

36. 陈光明 等,利用COSMIC数据研究顶部电离层O+扩散流的统计特征, 空间科学学报, 30, 2, 121-131.

37. 陈光明 等,基于CHAMP卫星加速度计观测的高层大气密度研究, 国家安全地球物理丛书, 6, 59-64.

38. 陈光明 等,Ionospheric climatology from PLP/CHAMP observations, The 9th International Symposium on Antennas, Propagation, and EM Theory, 12月2日.

39. 陈青志 等,2004年11月磁暴期间环电流的演化过程, 地球物理学报, 53, 10, 2271-2279.

40. 程征伟 等, 等 离子体片边界层场向电流密度与太阳风速度及动压的关系分析, 中国地球物理, 810.

41. 杜艰 等,Magnetic con?guration around Venus under different IMF conditions, EGU General Assembly 2010.

42. 高红 等,Seasonal and QBO Variations in the OH Nightglow Emission Observed by TIMED/SABER, J.Geophys.Res., doi:10.1029/2009JA014641..

43. 高红 等,Study on the correlation between nocturnal distributions of the OI588 nm and OI630 nm nightglow intensities over East Siberia, .

44. 高红 等,Global distribution of OH and O2 nightglow emissions observed by TIMED satellite, .

45. 高红 等,A study of the photochemical processes of the O2 (0-0) band nightglow emission, .

46. 高红 等,白天气辉辐射与太阳活动的关系, .

47. 郭建广 等,太阳风方位角流动对中高度极尖区位置的影响, 中国地球物理, 811.

48. 何宏青 等,An analytical method to Determine Solar Energetic Particles' Mean Free Path.

49. 姜国英 等,The first observation of the atmospheric tides in the mesosphere and lower thermosphere over Hainan,China, Chinese Science Bulletin, 55, 11, 1059--1066,doi: 10.1007/s11434-010-0084-8.

50. 库尔矢 等,Theoretical properties of offset bipolar electric field solitary structures in space plasmas., Advances in Space Research, 45, 1219-1223.

51. 刘元昕 等,电阻磁流体力学的CESE方法, 空间科学学报 , 30, 3, 211-220 .

52. 罗智贤 等,磁暴对海南地区电离层扩展F的影响, 空间科学学报, 30, 1, 23-28.

53. 马瑞平 等,CHAMP卫星探测的热层大气密度与MSIS-00模式的比较, 第二十三届全国空间探测会议论文, .

54. 马瑞平 等,Variations of the nighttime thermospheric mass density at low and middle latitudes, J.Geophys.Res., doi:10.1029/2010JA015784.

55. 沈芳 等,"The statistical and numerical study of the global distribution of coronal plasma and magnetic field near 2.5 Rs over a10-year period", Journal of Atmospheric and Solar-Terrestrial Physics, 72, 1008-1018.

56. 史建魁 等,South-north asymmetry of field-aligned currents in the magnetotail observed by Cluster, J.Geophys.Res., 115, A07228.

57. 汪洋 等,Study of CME-driven shock acceleration of solar energetic particles with numerical simulations and data analysis, American Geophysical Union, Fall Meeting 2010 .

58. 王国军 等,The statistical properties of spread F observed at Hainan station during the declining period of the 23rd solar cycle, Ann.Geophys., 28, 1263-1271.

59. 王国军 等,在第23个太阳活动下降期的海南地区电离层扩展F统计特征, 中国地球物理, 816.

60. 王胜国 等,Validation of B2bot in the NeQuick model during high solar activity at Hainan station, Advances in Space Research, 46, 1096-1101.

61. 王胜国 等,太阳中年 地区NeQuick模式F2层底部厚度模型修正研究, 中国地球物理, 818.

62. 魏新华 等,Is the Near-Earth Current Sheet Prior to Reconnection Unstable to Tearing Mode?, Chin Phys Lett, 27, .

63. 肖赛冠 等,电离层与低层大气耦合之震与非震特性的高频多普勒观测研 究, 中国地球物理, 809.

64. 徐寄遥 等,Seasonal variation of the Hough modes of the diurnal component of ozone heating evaluated from Aura Microwave Limb Sounder observations, J.Geophys.Res., 115, D10110, doi:10.1029/2009JD013179..

65. 徐寄遥 等,Strong longitudinal variations in the OH nightglow, Geophys.Res.Lett., doi:10.1029/2009JA014641..

66. 袁伟 等,First observation of mesospheric and thermospheric winds by a Fabry-Perot interferometer in China, Chinese Science Bulletin, 55, 35, 4046-4051.

67. 袁伟 等,Statistics of gravity wave spectra in the troposphere and lower stratosphere over Beijing., Sci China Ser D-Earth Sci, 53, 1, 141-149,doi: 10.1007/s11430-010-0002-6.

68. 张莹 等,运用一维太阳风MHD CE/SE模型预报行星际激波到达时间, 空间科学学报, 30, 2, 105-112 .

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