2014年论文

1. Liu Ying, Observations of an extreme storm in interplanetary space caused by successive coronal mass ejections, Nature Communications, 5:3481, doi: 10.1038/,ncomms4481.

2. Zhao, X., and M. Dryer, Current status of CME/shock arrival time prediction, Space Weather , 12, 448–469.

3. Feng Xueshang, Zhang Man, Zhou Yufen, A new three- dimensional solar wind model in spherical coordinates with a six-component grid, APJS, 214, 6.

4. Shen, F., C. Shen, J. Zhang, P. Hess, Y. Wang, X. Feng, H. Cheng, and Y. Yang, Evolution of the 12 July 2012 CME from the Sun to the Earth: Data-constrained three-dimensional MHD simulations, JGR, 119, 7128 – 7141.

5. Wang Chi,Han.J.P and Li Hui, Solar wind-magnetosphere energy coupling function fitting: Results from global MHD simulation, JGR, 119, 7485–7494.

6. Lin Dong,Wang Chi,Li Wenya，Properties of Kelvin-Helmholtz waves at the magnetopause under northward interplanetary magnetic field: Statistical study，JGR, Properties of Kelvin-Helmholtz waves at the magnetopause under northward interplanetary magnetic field: Statistical study

7. Yan Guang Qing, Kelvin-Helmholtz vortices observed by THEMIS at the duskside of the magnetopause under southward interplanetary magnetic field, GRL, 41, doi:10.1002/2014GL060589.

8. Shen Chao, Direct calculation of the ring current distribution andmagnetic structure seen by Cluster during geomagnetic storms, JGR, 119, doi:10.1002/2013JA019460.

9. Shi, J., Z. Zhang, K. Torkar, M. Dunlop, A. Fazakerley, Z. Cheng, and Z. Liu, Temporal and spatial scales of a high-flux electron disturbance in the cusp region: Cluster observations, JGR, 2014, 119, 4536-4543, doi:10.1002/2013JA09560.

10. Xu, J., A. K. Smith,M. Liu, X. Liu, H. Gao, G.Jiang, and W. Yuan, Evidence for nonmigrating tides produced by the interaction between tides and stationary planetary waves in the stratosphere and lower mesosphere, JGR, 119, 471–489, doi:10.1002/ 2013JD020150.

11. Chen G.-M.,Xu J., Wang.W, and A. G. Burns, A comparison of the effects of CIR- and CME-induced geomagnetic activity on thermospheric densities and spacecraft orbits: Statistical studies, JGR, 119, doi:10.1002/2014JA019831.

12. Chen G.-M., Xu J., Wang W., J. Lei, and S.-R. Zhang, The responses of ionospheric topside diffusive fluxes to two geomagnetic storms in October, 2002, JGR, 119, 6806–6820, doi:10.1002/2014JA020013.

13. Cheng Z. W., J. K. Shi, M. Dunlop, and Z. X. Liu, IMF By-controlled field-aligned currents in the magnetotail during northward interplanetary magnetic field, JASTP, 2014, vol：115-116, pp: 52-58.

14. Duan Aiying, Dependence of IMF By penetration into the neutral sheet on IMF Bz and geomagnetic activity, JGR, 119, doi:10.1002/2014JA019827.

15. Feng Xueshang, Xiang Changqing, Zhong Dingkun , SIP-CESE MHD model of solar wind with adaptive mesh refinement of hexahedral meshes, Computer Phys. Comm. , 185, 1965-1980.

16. Guo Jiuling, Simulation of IMF By penetration into the magnetotail, Physics of Plasmas, 21,032903 ,doi: 10.1063/1.4868863.

17. Guo J., Liu H., Feng X., T. I. Pulkkinen,, MLT and seasonal dependence of auroral electrojets: IMAGE magnetometer network observations, JGR, 119, doi: 10.1002/2014JA019843..

18. Guo, J., H. Liu, X. Feng, W. Wan, Y. Deng, and C. Liu, Constructive interference of large-scale gravity waves excited by interplanetary shock on 29 October 2003: CHAMP observation, JGR, 119, 6846 -6851.

19. Guo, J., T. I. Pulkkinen, E. I. Tanskanen, X. Feng,, Annual variations in westward auroral electrojet and substorm occurrence rate during solar cycle 23, JGR, 119, 2061 -2068.

20. Han Jinpeng,Wang Chi and Li Hui, Energetics characteristics of the super magnetic storm on November 20, 2003 based on 3D global MHD simulation, Sci China-Earth Sci.

21. Ji Yong, The loss rates of O+ in the inner magnetosphere caused by both magnetic field line curvature scattering and charge exchange reactions, Physics of Plasmas, 21,032903,doi: 10.1063/1.4868863.

22. Jiang Chaowei, Feng Xueshang, Preprocessing the Photospheric Vector Magnetograms for an NLFFF Extrapolation Using a Potential-Field Model and an Optimization Method, Solar Phys, 289: 63–77.

23. Jiang Chaowei, Wu S. T., Feng Xueshang, and Qiang Hu, Nonlinear Force-free Field Extrapolation of a Coronal Magnetic Flux Rope Supporting a Large-scale Solar Filament from a Photospheric Vector Magnetogram, , ApJ, 786: L16.

24. Jiang Chaowei, Wu S. T., Feng Xueshang, and Qiang Hu, Formation and eruption of an active region sigmoid. I. A study by nonlinear force-free field modeling, ApJ, 780:55.

25. Jiang,G.,W. Wang, J.Xu, J. Yue,A. G. Burns,J. Lei, M. G. Mlynczak, and J. M. RusellIII , Responses of the lowerthermospheric temperature to the9 day and 13.5 day oscillations ofrecurrent geomagnetic activity, JGR, 119,doi:10.1002/2013JA019406.

26. Jiao Jing, Joint observations of sporadic sodium and sporadic E layers at middle and low latitude in China, Chinese Science Bulletin, Volume 59, Number 29-30, 2014, 3868-3876.

27. Li Hui, Wang Chi, Fu Suiyan, Classification of fast flows in central plasma sheet: Superposed epoch analysis based on THEMIS observations, JGR, 119(9), 7199-7213.

28. Li Lifang, Competition between s-wave order and d-wave order in holographic superconductors, Journal of High Energy Physics, 08(2014)164.

29. Liu Ying, Propagation of the 2012 March Coronal Mass Ejections from the Sun to Heliopause, Astrophys. J. Letter, 788, L28.

30. Liu Ying, Sun-to-Earth Characteristics of Two Coronal Mass Ejections Interacting near 1 AU: Formation of a Complex Ejecta and Generation of a Two-Step Geomagnetic Storm, Astrophys. J. Letter, 793, L41.

31. Liu Yong, A statistical analysis of heliospheric plasma sheets, heliospheric current sheets, and sector boundaries observed in situ by STEREO, JGR, doi: 10.1002/2014JA019956.

32. Liu, X. J. Xu, H. -L. Liu, J. Yue, W. Yuan,, Simulations of large winds and wind shears induced by gravity wave breaking in the mesosphere and lower thermosphere (MLT) region, Ann. Geophys.,, 32,543–552,2014doi:10.5194/angeo-32-543-2014, 2014.

33. Liu, X., J. Xu, J. Yue, H. -L. Liu, W. Yuan, Large winds and wind shears caused by the nonlinear interactions between gravity waves and tidal backgrounds in the mesosphere and lower thermosphere, JGR, doi: 10.1002/2014JA020221, 2014.

34. Liu, X., J. Xu, S. -R. Zhang, G. Jiang, Q. Zhou, W. Yuan, J. Noto, R. Kerr,, Thermospheric planetary wave-type oscillations observed by FPIs over Xinglong and Millstone Hill, JGR, 119, 6891–6901, doi: 10.1002/2014JA020043, 2014.

35. Liu, X., J. Yue, J. Xu, L. Wang, W. Yuan, J. M. Russell III, and M. E. Hervig, Gravity wave variations in the polar stratosphere and mesosphere from SOFIE/AIM temperature observations, JGR, 119,7368–7381, doi: 10.1002/2013JD021439, 2014.

36. Liu, X., Xu, J., Yuan, W.,, Diurnal variations of turbulence parameters over the tropical oceanic upper troposphere during SCSMEX, Sci. China Tech. Sci. , 57(2):351-359, doi: 10.1007/s11431-013-5445-5, 2014.

37. Qin Gang, and A. Shalchi, Detailed numerical investigation of scattering of energetic particles interacting with magnetic turbulence, Physics of Plasmas, 21,042906.

38. Qin Gang, and Zhang Lihua, The Modification of the Nonlinear Guiding Center Theory, APJ., 789,,157.

39. Shi J. K., Wang Z., Tao W., G. A. Zherebtsov， , Investigation of total absorption of radio waves in high latitude ionosphere, Plasma Science and Technology, 2014,16(9),833-836.doi:10.1088/1009-0630/16/9/05.

40. Shi Xueling, Ion flux dropout observed around dipolarization front, 科学通报, 34；4780-4794.

41. Sun .T. R,C. Wang,,J. J. Zhang,, The chain response of the magnetospheric and ground magnetic field to interplanetary shocks, JGR, doi: 10.1002/2014JA020754.

42. Sun .T. R, C. Wang,,F. Wei , X-ray imaging of Kelvin-Helmholtz waves at the Magnetopause, JGR.

43. Wang Juan,,Xueshang Feng,,Aimin Du,,Yasong Ge, Modeling the interaction between the solar wind and Saturn's magnetosphere by the AMR-CESE-MHD method, JGR, doi:10.1002/2014JA020420.

44. Wang Rui, Magnetic Field Restructuring Associated with Two Successive Solar Eruptions, APJ, 791, 84.

45. Wang Z., Shi J. K., Guan Y. B., Liu C., Zhu G. W., Torkar K., Fredrich M., A model for the sounding rocket measurement on an ionospheric E-F valley at the Hainan low latitude station, Plasma Science and Technology, 2014, 16(4): 316-319. doi: 10.1088/1009-0630/16/4/03.

46. Wang, Z., J. K. Shi, K. Torkar, G. J. Wang, and X. Wang, Correlation between ionospheric strong range spread F and scintillations observed in Vanimo station, JGR, 2014, 119, doi:10.1002/2014JA020447.

47. Wang. Y, Qin .G, M. Zhang, and S. Dalla, A numerical simulation of solar energetic particle dropouts during impulsive events, ApJ, 789,157.

48. Wang.J.Y,Wang.C,Huang.Z.H,Sun.T.R, Effects of the interplanetary magnetic field on the twisting of the magnetotail: Global MHD results, JGR, 119，1887–1897.

49. Wang.Y， and Qin . G , Estimation of the release time of solar energetic particles near the Sun, APJ, 1311,7469.

50. Yang Yanyan, The force-free configuration of flux ropes in geomagnetotail: Cluster observations, JGR, 119,6327–6341, doi:10.1002/2013JA019642.

51. Yang Zhongwei, Full Particle Electromagnetic Simulations of Entropy Generation across a Collisionless Shock, ApJL, 793, L11.

52. Yue Chuan, Lidar observations of the middle atmospheric thermal structure over North China and comparisons with TIMED/SABER, JASTP, Volume 120 (2014) 80-87.

53. Zhang Shaohua, A.M. Du, Xueshang Feng, Xin Cao, Electron Acceleration in a Dynamically Evolved Current Sheet Under Solar Coronal Conditions, Solar Phys, Solar Phys, 289: 1607 –1623.

54. Zhang. Y, A.M. Du, X.S. Feng, et al., Simulated （STEREO） Views of the SolarWind Disturbances Following the Coronal Mass Ejections of 1 August, Solar Phys, 289: 319 –338.

55. Zhang.J.J,Wang.C,Tang.B.B, Improved method to derive equivalent current systems from global MHD simulations, Science China Earth Sciences, 57(1), 167-173.

56. Zhao, X. H., X. S. Feng, Shock Propagation Model version 2 and its application in predicting the arrivals at Earth of interplanetary shocks during Solar Cycle 23, JGR, 119, 1–10.

57. Zhao.L.-L, G. Qin, M. Zhang, and B. Heber, Modulation of Galactic cosmic rays during the unusual solar minimum between cycles 23 and 24, JGR, 119，,1493-1506.

58. Zhou Y F, Feng X S, An improved CESE method and its application to steady-state coronal structure simulation, Science China Earth Sciences, 57: 153- 166.

59. Zhou Yufen, Feng Xueshang, and Xinhua Zhao, Using a 3-D MHD simulation to interpret propagation,and evolution of a coronalmass ejection observed,by multiple spacecraft: The 3 April 2010 event, JGR, doi:10.1002/2014JA020347.

60. 郭九苓等, MHD 模拟磁尾横断面结构与太阳风粒子注入机制, 科学通报, 59: 345–350.

61. 孙晓英等, 2005年8月24日磁暴主相期间亚暴过程的多卫星联合观测分析, 地球物理学报, 57（11）.

62. 王翠梅，李钦增，徐寄遥，等, 2014．基于ＯＨ全天空气辉成像仪观测的中国低纬地区的重力波传播统计特征．，地球物理学报, 57（11）：3659-3667，doi：10.6038/cjg20141120..

63. 尚社平, 史建魁, 张北辰, 王霄, 武顺智, 基于全球定位系统的东亚电离层不规则体特性, 电波科学学报, 2014, 29 (4), 627-633.

64. 史建魁, 张冬, 王霄, 王国军, 王铮, 低纬地区暴时电离层电子柱含量扰动变化研究, 电波科学学报, 2014, 29(6), pp.

65. 王国军, 史建魁, 程征伟, 王霄, 尚社平, Z.A. Zherebtsov, 海南地区电离层等离子体泡的多仪器同时观测, 电波科学学报, 2014, 29(1):66-71.

66. 张子迎, 史建魁, 程征伟, 磁暴期间极尖区场向电子事件研究, 地球物理学报, 2014, 57(6): 1693-1699.

67. Feng Xueshang, Huazheng Fu, Dual Time Stepping Method For three-dimensional MHD With Splitting Based Scheme, Numerical Modeling of Space Plasma Flows:ASTRONUM -2013 ASP Conference Series, 488, 173- 179.

68. K G Ratovsky, J K Shi, A V Oinats, E B romanova, Comparison of diurnal, seasonal and solar cycle variations of high-latitude, mid-latitude and low-latitude ionosphere, 空间科学学报, 2014,34(2): 143-153.

69. K.G. Ratovsky a, J.K. Shi b, A.V. Oinats a, E.B. Romanova, Comparative study of high-latitude, mid-latitude and,low-latitude ionosphere on basis of local empirical models, Advances in space research, 2014,54:509-516.

70. Qin.G and A. Shalchi, Pitch-Angle Dependent Perpendicular Diffusion of Energetic Particles Interacting With Magnetic Turbulence, Applied Physics Research, 6,1,1.

71. Shen Fang et al., Energy Analysis During the Collision of Two Successive CMEs, Numerical Modeling of Space Plasma Flows: ASTRONUM -2013 ASP Conference Series, 488, 173- 179.

72. Wang Chi, Recent Advances in Chinese Meridian Project, 空间科学学报, 5,1-7.

73. Zhang Man, Zhou Yufen, Three-dimensional steady state interplanetary solar wind simulation in spherical coordinates with a six-component grid (in Chinese) , Chin. J. Space Sci., 34(6): 773 -784.

74. Zhao Xinhua, Wang Yuming, Yan Yihua, Chen Yao, Cheng Xin, He Jiansen, Qin Gang, Research Advances of Solar Corona and Interplanetary Physics in China: 2012–2014, Chin. J. Space Sci., 34(5): 565- 604.

75. Zhou Dazhuang, Super solar particle event around AD775 was found, Chinese Science Bulletin, 59(22),2736–2742.

76. 尚社平, 史建魁, 阎敬业, 杨国涛, 王霄, 燕春晓, 王继红, 吴琼之, 南方, 基于海南VHF雷达观测的低纬E区场向不规则体研究, 空间科学学报, 2014,34(1), 1-10.

77. 赵新华, 冯学尚, 太阳活动与地球表面温度变化的周期性和相关性 , 科学通报, 59: 1284-1292.