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2015
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2015年论文

  • 1. L. Dai, C. Wang, V. Angelopoulos, and K.-H. Glassmeier, In situ evidence of breaking the ion frozen-in condition via the non-gyrotropic pressure effect in magnetic reconnection, Ann. Geophys, doi:10.5194/angeo-33-1147-2015.


    2. Y. Wang, and G. Qin, Estimation of the release time of solar energetic particles near the Sun, Astrophys. J., 1、799.


    3. Y. Wang, and G. Qin, Simulations of the spatial and temporal invariance in the spectra of gradual solar energetic particle events, Astrophys. J., 2、806.


    4. G. Qin, and Y. Wang, Simulations of a gradual solar energetic particle event observed by Helios 1, Helios 2, and IMP 8 simultaneously, Astrophys. J., 2、809.


    5. Yang Z.W., Impact of Pickup Ions on the Shock Front Nonstationarity and Energy Dissipation of the Heliospheric Termination Shock: Two-Dimensional Full Particle Simulations and Comparison with Voyager 2 Observations, Astrophys. J. , 809, 28.


    6. Wang R., The Role of Active Region Coronal Magnetic Field in Determining Coronal Mass Ejection Propagation Direction, Astrophys. J. , 814, 80.


    7. X. H. Zhao and X. S. Feng, Influence of a cme’s initial parameters on the arrival of the associated inteplanetary shock at earth and the shock propagational model version 3, Astrophys. J., 2015,809:44.


    8. PingbingZuo, XueshangFeng, YanqiongXie, Yi Wang, and XiaojunXu, A statistical survey of dynamic pressure pulses in the solar wind based on wind observations, Astrophys. J., 2015,808:83.


    9. Xi Luo, Ming Zhang, Marius Potgieter, XueshangFeng, and N. V. Pogorelov, A numerical simulation of cosmic-ray modulation near the heliopause, Astrophys. J., 2015, 808:82.


    10. PingbingZuo, XueshangFeng, YanqiongXie, Yi Wang1, Huijun Li, and Xiaojun Xu, Automatic detection algorithm dynamic p of ressure pulses in the solar wind,, Astrophys. J., 2015, 803:94.


    11. . PingbingZuo, XueshangFeng, YanqiongXie, Yi Wang, and XiaojunXu, Strong solar wind dynamic pressure pulses: interplanetary sourcesand their impacts on geosynchronous magnetic fields,, Astrophys. J., 2015, 812:152.


    12. Y. Z. Zhang, The role of the inner coronal null point in the formation and evolution of solar quiescent prominences, .Astrophys. J, 2015, 800:43.


    13. Liu Y., Plasma and Magnetic Field Characteristics of Solar Coronal Mass Ejections in Relation to Geomagnetic Storm Intensity and Variability, Astrophys. J, 809, L34.


    14. Yang L. P., L. Zhang, J. S. He, C. Y. Tu, L. H. Wang, E. Marsch, X. Wang, S. H. Zhang, and X. S. Feng,, Formation of rotational discontinuities in compressive three-dimensional MHD turbulence,, Astrophys. J.,, 2015,809:155.


    15. Y. Wang, F. S. Wei, X. S. Feng, X. J. Xu, J. Zhang, T. R. Sun, and P. B. Zuo, Energy dissipation processes in solar wind turbulence,, Astrophys. J.,, 2015, 221:34.


    16. Yan G. Q., F. Mozer, T. Phan, Quasi-continuous reconnection accompanied by FTEs during IMF Bz ≈ 0 nT observed by Double Star TC-1 at the dawnside magnetopause, Advances in Space Research, 56.


    17. Man Zhang, XueshangFeng, Implicit dual-time stepping method for a solar wind model in spherical coordinates,, Computers & Fluids, 2015, 115 : 115–123.


    18. Lei Dai, Chi Wang, SupingDuan, Zhaohai He1, John R. Wygant, Cynthia A. , Near-Earth injection of MeV electrons associated with intense dipolarization electric fields:Van Allen Probes observations, Geophys. Res. Lett., doi:0.1002/2015GL064955.


    19. Wei X.H., Flapping motions of the magnetotail current sheet excited by nonadiabatic ions, Geophys. Res. Lett., 2015,42.


    20. Guo, J., J. M. Forbes, F. Wei, X. Feng, H. Liu, W. Wan, Z. Yang, C. Liu, B. A. Emery, and Y. Deng, Observations of a large-scale gravity wave propagating over an extremely large horizontal distance in the thermosphere,, Geophys. Res. Lett., 2015,42, 6560–6565.


    21. Wang Z., J.K. Shi, K.Torkar, A case study on ionospheric scintillations at low latitude associated with a plasma blob observed in situ, Geophys. Res. Lett., 42, 2109–2114.


    22. Guo J.P., J. M. Forbes, F.S. Wei, Observations of a large-scale gravity wave propagating over an extremely large horizontal distance in the thermosphere, Geophys. Res. Lett., 42, 6560-6565.


    23. H.-L. Liu, and G. Qin, Improvements of the shock arrival times at the Earth model STOA, J.Geophys. Res, 120、7、5290-5297.


    24. Jiao J., First report of sporadic K layers and comparisonwith sporadic Na layers at Beijing, China(40.6°N, 116.2°E), J.Geophys. Res, 第120卷6期5214-5225页.


    25. Gong S.H., Statistical study of atmospheric gravity waves in the mesopause region observed by a lidar chain in eastern China, J.Geophys. Res, 第120卷15期7619-7634页.


    26. Lei Dai, Kazue Takahashi, Robert Lysak, ChiWang, John R.Wygant, Craig Kletzing,, John Bonnell, Cynthia A. Cattell, CharlesW. Smith, Robert J. MacDowall, Scott Thaller,, Aaron Breneman, Xiangwei Tang, Xin Tao, and Lunjin Chen, Storm time occurrence and spatial distribution of Pc4 poloidal ULF waves in the innermagnetosphere: A Van Allen Probes statistical study, J.Geophys. Res, doi:10.1002/2015JA021134.


    27. Zhang L.Q., Earthward and tailward flows in the plasma sheet, J. Geophys. Res., doi:10.1002/2015JA021154.


    28. Zhang L.Q., Statistical characteristics of slow earthward and tailward flows in the plasma sheet, J. Geophys. Res., doi:10.1002/2015JA021354.


    29. Zhang L.Q., X-lines in the magnetotail for southward and northward IMF conditions, J.Geophys. Res., doi:10.1002/2015JA021503.


    30. Zhang L.Q., Parallel-dominant and perpendicular-dominant components of the fast bulk flow: comparing with the PSBL beams, J. Geophys. Res., doi:10.1002/2015JA021669.


    31. Zhang D., New technique to calculate electron Alfvén layer and its application in interpreting geosynchronous access of PS energetic electrons, J.Geophys. Res., 2015,58.


    32. Huang J., Coincidence of Heliospheric Current Sheet and Stream Interface: Implications for the Origin and Evolution of the Solar Wind, J. Geophys. Res., doi:10.1002/2015JA021729.


    33. Sun, T. R., C. Wang, J. J. Zhang, V. A. Pilipenko, Y. Wang, and J. Y. Wang, The chain response of the magnetospheric and ground magnetic field to interplanetary shocks, J.Geophys. Res. , 120、157–165.


    34. Sun, T. R., C. Wang, F. Wei, and S. Sembay, X-ray imaging of Kelvin-Helmholtz waves at the magnetopause, J.Geophys. Res. , 120、266–275.


    35. Liu, Z.-Q., J. Y. Lu, C. Wang, K. Kabin, J. S. Zhao, M. Wang, J. P. Han, J. Y. Wang, and M. X. Zhao, A three-dimensional high Mach number asymmetric magnetopause model from global MHD simulation, J.Geophys. Res. , 120, 5645–5666.


    36. Duan, S., L. Dai, C. Wang, A. T. Y. Lui, Z. Liu, Z. He, Y. Zhang, I. Dandouras, and H. Reme, Cluster observations of unusually high concentration of energetic O+ carried by flux ropes in the nightside high-latitude magnetosheath during a storm initial phase, J.Geophys. Res., 120,8317-8326.


    37. Xu, J., W. Wang, S. Zhang, X. Liu, and W. Yuan, Multiday thermospheric density oscillations associated with variations in solar radiation and geomagnetic activity, J.Geophys. Res., 120, 3829–3846, doi:10.1002/2014JA020830.


    38. Xu, J., et al., Concentric gravity waves over northern China observed by an airglow imager network and satellites, J. Geophys. Res., 120, 11,058–11,078,doi:10.1002/2015JD023786.


    39. Gao, H., J. Xu, W. Ward, A. K. Smith, andG.-M. Chen, Double-layer structureof OH dayglow in the mesosphere, J. Geophys. Res., 120,5778–5787, doi:10.1002/2015JA021208.


    40. Sun, L., J. Xu, W. Wang, X. Yue, W. Yuan, B. Ning, D. Zhang, and F. C. de Meneses, Mesoscale field-aligned irregularity structures (FAIs) of airglow associated with medium-scale traveling ionospheric disturbances (MSTIDs), J. Geophys. Res., 120, doi:10.1002/2015JA021886.


    41. Liu, W., J. Xu, A. K. Smith, and W. Yuan, Comparison of rotational temperature derived from ground-based OH airglow observations with TIMED/SABER to evaluate the Einstein coefficients, J. Geophys. Res., 120, doi:10.1002/2015JA021886.


    42. Liu, X., J. Yue, J. Xu,W. Yuan, J.M. Russell III, and M. E. Hervig, Five-day waves in polar stratosphere and mesosphere temperature and mesospheric ice water measured by SOFIE/AIM, J. Geophys. Res., 120, 3872–3887, doi:10.1002/2015JD023119.


    43. Liu, X., J. Xu, S.-R. Zhang, Q. Zhou, and W. Yuan, Solar activity dependency of multiday oscillations in the nighttime thermospheric winds observed by Fabry-Perot interferometer, J. Geophys. Res., 120, 5871–5881,doi:10.1002/2015JA021375.


    44. Feng, X., X. Ma, and C. Xiang, Data-driven modeling ofthe solar wind from 1 Rs to 1 AU, J. Geophys. Res. , 2 015, 120, doi:10.1002/2015JA021911.25.


    45. Wang G.J., J.K. Shi, B. Reinisch, Ionospheric plasma bubbles observed concurrently by multi-instruments over low-latitude station Hainan, J. Geophys. Res., 120, doi:10.1002/ 2014JA020245.


    46. X.H. Zhao, X.S. Feng, Correlation between solar activity and the local temperature of Antarctica during the past 11,000 years,, Journal of Atmospheric and Solar-Terrestrial Physics, Journal of Atmospheric and Solar-Terrestrial Physics.


    47. G. Qin, and A. Shalchi, Perpendicular Diffusion of Energetic Particles: Numerical Test of the Theorem on Reduced Dimensionality, Phys. Plasmas, 22、1.


    48. Wang, J. Y., Z. H. Huang, C. Wang, and Z. Q. Liu, Effects of the interplanetary magnetic field clock angle on the shape of bow shock, Sci China Earth , 58、7、 1228-1234.


    49. Guo, J., F. Wei, X. Feng, H. Liu, W. Wan, Z. Yang, J. Xu and C. Liu, Alfvén waves as a solar-interplanetary driver of the thermospheric disturbances, Sci. Rep, 5, 18895; doi: 10.1038/srep18895 (2015).


    50. Xiaojun Xu, Yi Wang, Fengsi Wei, Xueshang Feng, Direct evidence for kinetic effectsassociated with solar wind reconnection, Sci. Rep, DOI: 10.1038/srep08080.


    51. Wang J, Du A M, Zhang Y, et al., Modeling the Earth’s magnetosphere under the influence of solar wind with due northward IMF by the AMR-CESE-MHD model, Science China: Earth Sciences, 2015, 58(7): 1235-1242.


    52. Zhang, J. J., C. Wang, T. R. Sun, C. M. Liu, and K. R. Wang , GIC due to storm sudden commencement in low-latitude high-voltage power network in China: Observation and simulation, Space Weather, 13、 10,.


    53. Liu M H, Xu J Y, Yue J, Jiang G Y., Global structure and seasonal variations of the migrating 6-h tide observed by SABER/TIMED, ScienceChina: Earth Sciences, 58: 1216–1227, doi: 10.1007/s11430-014-5046-6-4.


    54. Liu M H, Xu J Y, Liu H L, Liu X., Possible modulation of migrating diurnal tide by latitudinal gradient of zonal wind observed by SABER/TIMED, ScienceChina: Earth Sciences, 10.1007/s11430-015-5185-4.


    55. FENG XueShang& ZUO PingBing, Recent progress in MHD simulations of the solar-terrestrialconnection, Science China: Technological Sciences,, 2015, 58(12): 2212–2213.


    56. Liu Y., An Introduction to Magnetosphere-Ionosphere-Thermosphere Coupling Small Satellite Constellation, Chin. J. Space Sci., 35, 653.


    57. 魏稳稳, 沈芳, 左平兵, 基于磁流体力学模拟的太阳高能粒子物理模式研究进展, 天文学进展, 33,1, 1-27.


    58. 魏新华, 伴随着高速流的磁尾电流片拍动观测研究, 地球物理学报, 2015,10.


    59. 刘伟军,徐寄遥,袁愆�, 北京地区上空OH转动温度的季节性变化, 地球物理学报, 58(5):1467-1474,doi:10.6038/cjg20150501.


    60. 王涛,李会超,张曼,付华峥, AUSM 系列算法对比研究及背景太阳风初步应用, 空间科学学报, 2015, 35(4): 393-402, doi:10.11728/cjss2015.04.393.