Publications of Xiaojun Xu

A list of publications authored or co-authored by Xiaojun Xu, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-2309-0649

List of publications ordered by citations
Number of papers: 91 (refereed: 90)
No. of citations: 742
First author papers: 13 (refereed: 12)

2025

  1. Electron Acceleration in Time-dependent Kinematic Three-dimensional Magnetic Reconnection: The Role of Induced Electric Fields and Magnetic Topology [0]
    Chen, Y. L., Wang, Y., Wei, F. S., Feng, X. S., Zhou, Z. L., Wang, B. Y., Zuo, P. B., Song, X. J. & Xu, X. J., ApJS, 281, 55
  2. Global ionospheric equivalent current response to a solar flare event [0]
    Ge, Panze, Xu, Xiaojun & Li, Huijun, Physics of Fluids, 37, 036628
  3. Observational Evidence for the Modulation of Magnetopause Position by Solar Wind Turbulence [0]
    Gu, Yaxin, Wang, Yi, Wei, Fengsi, Feng, Xueshang, Wang, Boyi, Wang, Ludi, Zhang, Wenyu, Xu, Zekun, Chen, Zhuowei, Lu, Yunxiang, Song, Xiaojian, Zuo, Pingbing, Xu, Xiaojun & Zhou, Zilu, ApJ, 990, L4
  4. The comparison of flux rope and crustal field observations on Mars [0]
    Lu, Chang, Xu, Xiaojun & Man, Hengyan, Physics of Fluids, 37, 126606
  5. Global asymmetric distributions of the low frequency whistler-mode waves in the Martian induced magnetosphere [0]
    Ma, X., Tian, A. M., Bai, S. C., Guo, R. L., Shi, Q. Q., Park, J. S., Degeling, A. W. & Xu, X. J., A&A, 697, A202
  6. Dayside Magnetic Reconnection With Outflow Below the Mars' Escape Velocity: MAVEN Observation [2]
    Man, Hengyan, Xu, Xiaojun, Deng, Xiaohua, Yang, Pu, Cui, Jun, Wang, Jing, Luo, Lei, Zhong, Zhihong, Zhou, Zilu, Wang, Xing, Yi, Siqi, He, Peishan & Zhao, Wenjing, Journal of Geophysical Research (Planets), 130, e2024JE008846
  7. Observations of the day-to-night transport of Martian heavy ions by the closed crustal magnetic field across the terminator [0]
    Man, Hengyan, Xu, Xiaojun, Yang, Pu & Cui, Jun, Physics of Fluids, 37, 046636
  8. Similarities and Differences between ICME-driven Shocks Observed by VEX (∼0.72 au) and WIND (∼1.0 au) [0]
    Ruan, Mengsi, Zuo, Pingbing, Zhou, Zilu, Wei, Jiayun, Feng, Xueshang, Wang, Yi, Xu, Qi, Xu, Xiaojun, Zou, Zhengyang & Shen, Zhenning, ApJ, 980, 9
  9. Solar Modulation of Galactic Cosmic Rays from Hydrogen to Nickel Based on a Modified Force-field Approach [2]
    Shen, Zhenning, Li, Caixia, Zuo, Pingbing, Qin, Gang & Xu, Xiaojun, ApJ, 988, 262
  10. Analysis on the Turbulent Properties of Current Sheets in the Solar Wind [3]
    Wang, L. D., Wang, Y., Wei, F. S., Feng, X. S., Wang, B. Y., Zuo, P. B., Zhang, W. Y., Xu, X. J., Zhou, Z. L. & Song, X. J., ApJ, 985, 113
  11. Turbulence-driven Anisotropic Acceleration of Energetic Electrons in Solar Wind Current Sheets [0]
    Wang, L. D., Wang, Y., Wei, F. S., Feng, X. S., Wang, B. Y., Zuo, P. B., Chen, Y. L., Xu, X. J. & Zhou, Z. L., ApJ, 994, L25
  12. Thermal Variability in the Martian Upper Atmosphere within the Crustal Magnetic Field Region Induced by Gravity Wave Dissipation Due to Ion-drag Effect [2]
    Wang, Xing, Xu, Xiaojun, Cui, Jun, Yi, Siqi, Gu, Hao, Zhou, Zilu, Man, Hengyan, Luo, Lei, He, Peishan & Yang, Pu, The Astronomical Journal, 169, 108
  13. Two Pathways of Turbulent Energy Processing in Solar Wind Current Sheets: Confined Fragmentation versus Organized Transport [1]
    Wang, Y., Wang, L. D., Wei, F. S., Feng, X. S., Zhang, W. Y., Wang, B. Y., Zuo, P. B., Xu, X. J. & Zhou, Z. L., ApJ, 994, 15
  14. Data processing and quality evaluation for the vector magnetic field measurement on the Macau Scientific Satellite-1 mission [0]
    Yan, Qing, Ou, Jiaming, Jiang, Yi, Xu, Xiaojun, Zhou, Bin, Cheng, Bingjun & Zhang, Jiaxuan, Physics of Fluids, 37, 077151
  15. Evidence for the geomagnetic gradient induced current in the ionosphere around the South Atlantic Anomaly [0]
    Yi, Siqi, Xu, Xiaojun, Jiang, Yi, Wang, Xing, Yan, Qing & Li, Hui, Physics of Fluids, 37, 017104
  16. Time-dependent MHD Simulation of the Lunar Limb Compression Caused by the Core-induced Magnetic Field [0]
    Yi, Siqi, Xu, Xiaojun, Xie, Lianghai, Wang, Xing, Xu, Qi, Li, Lei & Wang, Chi, ApJ, 991, 60
  17. Observations of nearly coincident induced magnetopause and ionopause at Venus [0]
    Zhao, Wenjing, Xu, Xiaojun, Yang, Pu & Zhang, Tielong, Physics of Fluids, 37, 106609

2024

  1. The Current Tension Electric Field in the Generalized Ohm's Law [1]
    Luo, Lei, Xu, Xiaojun, Song, Liangjin, Zhou, Meng, Zhou, Zilu, Man, Hengyan, Wang, Xing, Zhang, Yu, He, Peishan, Yi, Siqi & Li, Hui, Geophysical Research Letters, 51, e2023GL107191
  2. The Dynamic Venusian Bow Shock Model With the Nonlinear Effect of Magnetosonic Mach Number Based on Venus Express Observations [0]
    Wang, Ming, Xu, Qi, Xie, Lianghai, Li, Lei, Zhang, Yiteng, Lu, Jianyong, Xu, Xiaojun, Zuo, Pingbing, Feng, Yongyong, Ruan, Mengsi & Zhang, Tielong, Journal of Geophysical Research (Space Physics), 129, e2024JA032741
  3. A 3D Parametric Venusian Bow Shock Model with the Effects of Mach Number and Interplanetary Magnetic Field [1]
    Wang, Ming, Xu, Qi, Xie, Lianghai, Li, Lei & Xu, Xiaojun, The Astronomical Journal, 167, 81
  4. A linearized coupled model of acoustic-gravity waves and the lower ionosphere at Mars [2]
    Wang, Xing, Xu, Xiaojun, Cui, Jun, Yi, Siqi, Gu, Hao, Zhou, Zilu, Man, Hengyan, Luo, Lei, He, Peishan, Yang, Pu & Li, Hui, A&A, 688, A24
  5. A statistical study of the impact of the stream interaction regions on the heliospheric current sheet [0]
    Xu, Xiaojun & Xu, Jiaying, Physics of Fluids, 36, 087113
  6. The siphonic energy transfer between hot solar wind and cold martian ionosphere through open magnetic flux rope [5]
    Xu, Xiaojun, Lee, Lou-Chuang, Xu, Qi, Chang, Qing, Wang, Jing, Wang, Ming, Xu, Shaosui, Möstl, Christian, Farrugia, Charles J., Wang, Xing, Ye, Yudong, Zhou, Zilu, Luo, Lei, He, Peishan & Cheng, Shaoguan, Fundamental Research, 4, 882
  7. In situ observation of mass ejections caused by magnetic reconnections in the ionosphere of Mars [12]
    Ye, Yudong, Xu, Xiaojun, Lee, Lou-Chuang, Yu, Jiang, Wang, Jing, Zhu, Bei, Chang, Qing, Xu, Jiaying, Xu, Qi & Zhou, Zilu, Nature Astronomy, 8, 838

2023

  1. Quasi-elastodynamic Processes Involved in the Interaction between Solar Wind and Magnetosphere [2]
    Gu, Y. X., Wang, Y., Wei, F. S., Feng, X. S., Song, X. J., Wang, B. Y., Zuo, P. B., Jiang, C. W., Xu, X. J. & Zhou, Z. L., ApJ, 946, 102
  2. The three-fluid generalized Ohm's law: A theoretical study [6]
    Luo, Lei, Xu, Xiaojun, Zhang, Yu, Zhou, Zilu, Chang, Qing, Xu, Qi, Wang, Xing, He, Peishan, Yi, Siqi & Li, Hui, Physics of Fluids, 35, 017134
  3. Planar Magnetic Structures Downstream of Coronal Mass Ejection-driven Shocks in the Inner Heliosphere [6]
    Ruan, Mengsi, Zuo, Pingbing, Feng, Xueshang, Xu, Qi, Zhou, Zilu, Wei, Jiayun, Jiang, Chaowei, Wang, Yi, Xu, Xiaojun & Shen, Zhenning, ApJ, 951, 47
  4. MAVEN Observations of Whistler-mode Waves Within the Magnetic Dips in the Martian Ionopause/Ionosphere [8]
    Wang, Jing, Yu, Jiang, Chen, Zuzheng, Xu, Xiaojun, Li, Kun, Cui, Jun & Cao, Jinbin, The Astronomical Journal, 165, 56
  5. Local Generation of Magnetosonic Waves by Ring Beam Hot Protons in the Martian Ionosphere [12]
    Wang, Jing, Yu, Jiang, Chen, Zuzheng, Xu, Xiaojun, Cui, Jun & Cao, Jinbin, Geophysical Research Letters, 50, e2023GL102911
  6. In Situ Observations of Whistler-mode Waves in Magnetic Reconnection at Mars [10]
    Wang, Jing, Yu, Jiang, Ren, Aojun, Chen, Zuzheng, Xu, Xiaojun, Cui, Jun & Cao, Jinbin, ApJ, 944, 85
  7. Electron density variability in the day-side ionosphere of Mars: The role of gravity waves [8]
    Wang, Xing, Xu, Xiaojun, Cui, Jun, Gu, Hao, Niu, Dandan, Zhou, Zilu, Chang, Qing, Xu, Qi, Luo, Lei, He, Peishan & Yi, Siqi, MNRAS, 518, 4310
  8. Solar Control of the Pickup Ion Plume in the Dayside Magnetosheath of Venus [7]
    Xu, Qi, Xu, Xiaojun, Zuo, Pingbing, Futaana, Yoshifumi, Chang, Qing & Gu, Hao, Geophysical Research Letters, 50, e2022GL102401
  9. Characteristics of flight delays during solar flares [7]
    Xu, X. H., Wang, Y., Wei, F. S., Feng, X. S., Bo, M. H., Tang, H. W., Wang, D. S., Bian, L., Wang, B. Y., Zhang, W. Y., Huang, Y. S., Li, Z., Guo, J. P., Zuo, P. B., Jiang, C. W., Xu, X. J., Zhou, Z. L. & Zou, P., Scientific Reports, 13, 6101
  10. Ion Loss within a Reconnection Exhaust near Mars: MAVEN Observations [6]
    Xu, Xiaojun, Wang, Xing, Zhou, Zilu, Chang, Qing, Luo, Lei, He, Peishan, Yi, Siqi & Li, Hui, ApJ, 955, 41

2022

  1. The Solar Wind Parker Spiral Angle Distributions and Variations at 1 au [13]
    Chang, Qing, Xu, Xiaojun, Wang, Xing, Ye, Yudong, Xu, Qi, Wang, Jing, Wang, Ming, Zhou, Zilu, Luo, Lei, Cheng, Shaoguan & He, Peishan, ApJ, 931, 105
  2. The Mercury's Bow-shock Models Near Perihelion and Aphelion [4]
    He, Peishan, Xu, Xiaojun, Yu, Hsinchen, Wang, Xing, Wang, Ming, Chang, Qing, Zhou, Zilu, Luo, Lei & Li, Hui, The Astronomical Journal, 164, 260
  3. Significant Variations of Thermospheric Nitric Oxide Cooling during the Minor Geomagnetic Storm on 6 May 2015 [8]
    Li, Zheng, Sun, Meng, Li, Jingyuan, Zhang, Kedeng, Zhang, Hua, Xu, Xiaojun & Zhao, Xinhua, Universe, 8, 236
  4. Overshoot Structure Near the Earth's Subsolar Magnetopause Generated by Magnetopause Motions [0]
    Song, Xiaojian, Zuo, Pingbing, Shen, Zhenning, Feng, Xueshang, Xu, Xiaojun, Wang, Yi, Jiang, Chaowei & Luo, Xi, Frontiers in Physics, 10, 775792
  5. MAVEN Observations of the Kelvin-Helmholtz Instability Developing at the Ionopause of Mars [21]
    Wang, Xing, Xu, Xiaojun, Ye, Yudong, Wang, Jing, Wang, Ming, Zhou, Zilu, Chang, Qing, Xu, Qi, Xu, Jiaying, Luo, Lei, He, Peishan & Cheng, Shaoguan, Geophysical Research Letters, 49, e98673
  6. The Dependence of the Venusian Induced Magnetosphere on the Interplanetary Magnetic Field: An MHD Study [10]
    Xu, Qi, Xu, Xiaojun, Zuo, Pingbing, Xie, Lianghai, Wang, Ming, Chang, Qing, Wang, Jing, Ye, Yudong, Zhou, Zilu, Wang, Xing, Luo, Lei & Gu, Hao, ApJ, 931, 95
  7. Analyses of Flight Time During Solar Proton Events and Solar Flares [1]
    Xu, X. H., Wang, Y., Wei, F. S., Feng, X. S., Bo, M. H., Tang, H. W., Wang, D. S., Lei, B., Wang, B. Y., Zuo, P. B., Jiang, C. W., Xu, X. J., Zhou, Z. L., Li, Z., Zou, P., Wang, L. D., Gu, Y. X., Chen, Y. L., Zhang, W. Y. & Sun, P., arXiv:2209.07703
  8. PSP Observations of a Slow Shock Pair Bounding a Large-Scale Plasmoid/Macro Magnetic Hole [2]
    Zhou, Zilu, Xu, Xiaojun, Zuo, Pingbing, Wang, Yi, Wang, Ludi, Ye, Yudong, Wang, Ming, Chang, Qing, Wang, Xing & Luo, Lei, Geophysical Research Letters, 49, e97564
  9. Evidence for Plasma Heating at Thin Current Sheets in the Solar Wind [6]
    Zhou, Zilu, Xu, Xiaojun, Zuo, Pingbing, Wang, Yi, Xu, Qi, Ye, Yudong, Wang, Jing, Wang, Ming, Chang, Qing, Wang, Xing & Luo, Lei, ApJ, 924, L22

2021

  1. The Relationship between Solar Wind Dynamic Pressure Pulses and Solar Wind Turbulence [1]
    Ruan, Mengsi, Zuo, Pingbing, Zhou, Zilu, Shen, Zhenning, Wang, Yi, Feng, Xueshang, Jiang, Chaowei, Xu, Xiaojun, Wei, Jiayun, Xiong, Yanyan & Wang, Ludi, Frontiers in Physics, 9, 630
  2. Solar Modulation of Galactic Cosmic-Ray Protons Based on a Modified Force-field Approach [17]
    Shen, Zhenning, Yang, Hao, Zuo, Pingbing, Qin, Gang, Wei, Fengsi, Xu, Xiaojun & Xie, Yanqiong, ApJ, 921, 109
  3. Numerical Modeling of Latitudinal Gradients for Galactic Cosmic-Ray Protons during Solar Minima: Comparing with Ulysses Observations [18]
    Shen, Zhenning, Qin, Gang, Zuo, Pingbing, Wei, Fengsi & Xu, Xiaojun, ApJS, 256, 18
  4. MAVEN Observations of Magnetic Reconnection at Martian Induced Magnetopause [31]
    Wang, Jing, Yu, Jiang, Xu, Xiaojun, Cui, Jun, Cao, Jinbin, Ye, Yudong, Xu, Qi, Wang, Ming, Zhou, Zilu, Chang, Qing, Xu, Jiaying & Wang, Xing, Geophysical Research Letters, 48, e95426
  5. Effect of solar wind density and velocity on the subsolar standoff distance of the Martian magnetic pileup boundary [18]
    Wang, M., Lee, L. C., Xie, L., Xu, X., Lu, J. Y., Kabin, K., Wang, J., Li, L. & Sui, H. Y., A&A, 651, A22
  6. The Nonrelaxation of Magnetic Field Lines in Solar Wind Magnetic Reconnection Exhausts [0]
    Xu, Jiaying, Xu, Xiaojun, Ye, Yudong, Chang, Qing & Xu, Qi, ApJ, 921, 137
  7. The Venus Express observation of Venus' induced magnetosphere boundary at solar maximum [14]
    Xu, Q., Xu, X., Zhang, T. L., Rong, Z. J., Wang, M., Wang, J., Ye, Y., Zhou, Z., Chang, Q., Xu, J., Wang, X. & Luo, L., A&A, 652, A113
  8. Rapid Refilling of the Lunar Wake under Transonic Plasma Flow: ARTEMIS Observations [1]
    Xu, Xiaojun, Xu, Jiaying, Xu, Qi, Chang, Qing & Wang, Jing, ApJ, 908, 227
  9. Shock Properties and Associated Characteristics of Solar Energetic Particles in the 2017 September 10 Ground-level Enhancement Event [10]
    Zhu, Bei, Liu, Ying D., Kwon, Ryun-Young, Jin, Meng, Lee, L. C. & Xu, Xiaojun, ApJ, 921, 26
  10. Evidence of wave-wave coupling between frequency harmonic bands of magnetosonic waves [5]
    Zou, Zhengyang, Gao, Zhonglei, Zuo, Pingbing, Ni, Binbin, Wang, Geng, Zhao, Zhengyu, Feng, Xueshang, Xu, Xiaojun, Jiang, Chaowei, Wang, Yi & Wei, Fengsi, Physics of Plasmas, 28, 122903

2020

  1. The Demagnetization of the Venusian Ionosphere under Nearly Flow-aligned Interplanetary Magnetic Fields [15]
    Chang, Qing, Xu, Xiaojun, Xu, Qi, Wang, Jing, Xu, Jiaying, Ye, Yudong & Zhang, Tielong, ApJ, 900, 63
  2. A Study of Variations of Galactic Cosmic-Ray Intensity Based on a Hybrid Data-processing Method [14]
    Shen, Zhenning, Qin, Gang, Zuo, Pingbing, Wei, Fengsi & Xu, Xiaojun, ApJ, 900, 143
  3. Plasma and magnetic-field structures near the Martian induced magnetosphere boundary. I. Plasma depletion region and tangential discontinuity [28]
    Wang, J., Lee, L. C., Xu, X., Cao, J. B., Yu, J., Chang, Q., Xu, Q. & Xu, J., A&A, 642, A34
  4. South-north asymmetry of proton density distribution in the Martian magnetosheath [3]
    Wang, Jing, Xu, XiaoJun, Yu, Jiang & Ye, YuDong, Earth and Planetary Physics, 4, 32
  5. A 3D Parametric Martian Bow Shock Model with the Effects of Mach Number, Dynamic Pressure, and the Interplanetary Magnetic Field [32]
    Wang, M., Xie, L., Lee, L. C., Xu, X. J., Kabin, K., Lu, J. Y., Wang, J. & Li, L., ApJ, 903, 125
  6. The Relaxation of Reconnected Open Magnetic Field Lines in the Earth's Magnetosphere [2]
    Xu, Jiaying, Xu, Xiaojun, Wang, Jing, Ye, Yudong, Chang, Qing & Xu, Qi, ApJ, 900, 52
  7. An ICME impact on the Martian hydrogen corona [2]
    Xu, Qi, Xu, XiaoJun, Chang, Qing, Xu, JiaYing, Wang, Jing & Ye, YuDong, Earth and Planetary Physics, 4, 38

2019

  1. Multiple-point Modeling the Parker Spiral Configuration of the Solar Wind Magnetic Field at the Solar Maximum of Solar Cycle 24 [14]
    Chang, Qing, Xu, Xiaojun, Xu, Qi, Zhong, Jun, Xu, Jiaying, Wang, Jing & Zhang, Tielong, ApJ, 884, 102
  2. Monte Carlo calculations of the atmospheric sputtering yields on Titan [10]
    Gu, H., Cui, J., Niu, D.-D., Wellbrock, A., Tseng, W.-L. & Xu, X.-J., A&A, 623, A18
  3. Diamagnetic Plasma Clouds in the Near Lunar Wake Observed by ARTEMIS [3]
    Guo, Dawei, Zhang, Xiaoping, Xie, Lianghai, Xu, Xiaojun, Xu, Aoao, Yan, Qi, Xu, Yi & Yang, Fan, ApJ, 883, 12
  4. Long-standing Small-scale Reconnection Processes at Saturn Revealed by Cassini [10]
    Guo, R. L., Yao, Z. H., Sergis, N., Wei, Y., Xu, X. J., Coates, A. J., Delamere, P. A., Roussos, E., Arridge, C. S., Waite, J. H., Krupp, N., Mitchell, D., Burch, J., Dougherty, M. K. & Wan, W. X., ApJ, 884, L14
  5. Properties of Stream Interactions and Their Associated Shocks near 1.52 au: MAVEN Observations [19]
    Huang, Hui, Guo, Jianpeng, Wang, Zehao, Lin, Haibo, Zheng, Jianchuan, Cui, Jun, Xu, Xiaojun, Wang, Yang, Feng, Xueshang, Wei, Yong & Wan, Weixing, ApJ, 879, 118
  6. A Test Particle Monte Carlo Investigation of the CH4 Torus around Saturn [0]
    Niu, D.-D., Cui, J., Gu, H., Dong, C.-Y., Zhou, L.-Y., Wellbrock, A., Jiang, F.-Y. & Xu, X.-J., The Astronomical Journal, 157, 15
  7. Abnormal magnetospheric magnetic gradient direction reverse around the indented magnetopause [4]
    Song, Xiaojian, Zuo, Pingbing, Feng, Xueshang, Shue, Jih-Hong, Wang, Yi, Jiang, Chaowei, Zhou, Zilu & Xu, Xiaojun, Astrophysics and Space Science, 364, 146
  8. Observations of the Venus Dramatic Response to an Extremely Strong Interplanetary Coronal Mass Ejection [16]
    Xu, Qi, Xu, Xiaojun, Chang, Qing, Rong, Zhaojin, Wang, Jing, Xu, Jiaying & Zhang, Tielong, ApJ, 876, 84
  9. ARTEMIS Observations of Well-structured Lunar Wake in Subsonic Plasma Flow [6]
    Xu, Xiaojun, Xu, Qi, Chang, Qing, Xu, Jiaying, Wang, Jing, Wang, Yi, Zuo, Pingbing & Angelopoulos, Vassilis, ApJ, 881, 76
  10. Intermittent Heating in the Magnetic Cloud Sheath Regions [3]
    Zhou, Zilu, Zuo, Pingbing, Wei, Fengsi, Feng, Xueshang, Wang, Yi, Wang, Ludi, Jiang, Chaowei, Song, Xiaojian & Xu, Xiaojun, ApJ, 885, L13

2018

  1. Magnetic Field near Venus: Comparison between Solar Cycle 24 and Previous Cycles [12]
    Chang, Qing, Xu, Xiaojun, Zhang, Tielong, Chai, Lihui, Wei, Yong & Xu, Qi, ApJ, 867, 129
  2. The Energetic Particle Environment of the Lunar Nearside: Influence of the Energetic Ions from Earth’s Bow Shock [2]
    Xu, Xiaojun, Chang, Qing, Xu, Qi, Angelopoulos, Vassilis, Wang, Yi & Zuo, Pingbing, ApJ, 863, 80
  3. Observation of Interplanetary Slow Shock Pair Associated with Reconnection Exhaust in Magnetic Cloud Boundary Layer [12]
    Zhou, Zilu, Wei, Fengsi, Feng, Xueshang, Wang, Yi, Zuo, Pingbing & Xu, Xiaojun, ApJ, 863, 84

2017

  1. Anomalously high rate refilling in the near lunar wake caused by the Earth's bow shock [4]
    Xu, Xiaojun, Wong, Hon-Cheng, Ma, Yonghui, Wang, Yi, Zuo, Pingbing, Zhou, Meng, Pang, Ye & Deng, Xiaohua, Journal of Geophysical Research (Space Physics), 122, 9102
  2. The Energetic Particle Environment of the Lunar Nearside: SEP Influence [8]
    Xu, Xiaojun, Angelopoulos, Vassilis, Wang, Yi, Zuo, Pingbing, Wong, Hon-Cheng & Cui, Jun, ApJ, 849, 151
  3. Observation of Three-Dimensional Magnetic Reconnection in the Terrestrial Magnetotail [27]
    Zhou, Meng, Ashour-Abdalla, Maha, Deng, Xiaohua, Pang, Ye, Fu, Huishan, Walker, Raymond, Lapenta, Giovanni, Huang, Shiyong, Xu, Xiaojun & Tang, Rongxin, Journal of Geophysical Research (Space Physics), 122, 9513

2016

  1. Statistics of energetic electrons in the magnetotail reconnection [22]
    Zhou, Meng, Li, Tangmu, Deng, Xiaohua, Pang, Ye, Xu, Xiaojun, Tang, Rongxin, Huang, Shiyong & Li, Huimin, Journal of Geophysical Research (Space Physics), 121, 3108

2015

  1. Subsonic and sunward-orientated lunar wake observed by ARTEMIS in the geomagnetotail [2]
    Ma, Yonghui, Wong, Hon-Cheng & Xu, Xiaojun, Astrophysics and Space Science, 358, 11
  2. Energy Dissipation Processes in Solar Wind Turbulence [8]
    Wang, Y., Wei, F. S., Feng, X. S., Xu, X. J., Zhang, J., Sun, T. R. & Zuo, P. B., ApJS, 221, 34
  3. Observations of current sheets associated with solar wind reconnection exhausts passing through the near lunar wake [4]
    Xu, Xiaojun, Wong, Hon-Cheng, Ma, Yonghui, Wang, Yi, Zuo, Pingbing, Zhou, Meng & Deng, Xiaohua, Journal of Geophysical Research (Space Physics), 120, 9246
  4. Evidence for Newly Initiated Reconnection in the Solar Wind at 1 AU [12]
    Xu, Xiaojun, Wong, Hon-Cheng, Ma, Yonghui, Wang, Yi, Zhou, Meng, Zuo, Pingbing, Wei, Fengsi, Feng, Xueshang & Deng, Xiaohua, ApJ, 809, 5
  5. Strong Solar Wind Dynamic Pressure Pulses: Interplanetary Sources and Their Impacts on Geosynchronous Magnetic Fields [9]
    Zuo, Pingbing, Feng, Xueshang, Xie, Yanqiong, Wang, Yi & Xu, Xiaojun, ApJ, 812, 152
  6. A Statistical Survey of Dynamic Pressure Pulses in the Solar Wind Based on WIND Observations [11]
    Zuo, Pingbing, Feng, Xueshang, Xie, Yanqiong, Wang, Yi & Xu, Xiaojun, ApJ, 808, 83
  7. Automatic Detection Algorithm of Dynamic Pressure Pulses in the Solar Wind [14]
    Zuo, Pingbing, Feng, Xueshang, Xie, Yanqiong, Wang, Yi, Li, Huijun & Xu, Xiaojun, ApJ, 803, 94

2014

  1. Comparative statistical study between MCs and non-cloud-like ICMEs during solar cycle 23 near 1AU [0]
    Yu, Wei-Yong, Xu, Xiao-Jun & Deng, Xiao-Hua, Chinese Journal of Geophysics, 57, 715
  2. Characteristic distribution and possible roles of waves around the lower hybrid frequency in the magnetotail reconnection region [35]
    Zhou, Meng, Li, Huimin, Deng, Xiaohua, Huang, Shiyong, Pang, Ye, Yuan, Zhigang, Xu, Xiaojun & Tang, Rongxin, Journal of Geophysical Research (Space Physics), 119, 8228
  3. Evidence of deflected super-Alfvénic electron jet in a reconnection region with weak guide field [26]
    Zhou, Meng, Deng, Xiaohua, Tang, Rongxin, Pang, Ye, Xu, Xiaojun, Yuan, Zhigang & Huang, Shiyong, Journal of Geophysical Research (Space Physics), 119, 1541

2012

  1. Variations of Solar Electron and Proton Flux in Magnetic Cloud Boundary Layers and Comparisons with Those across the Shocks and in the Reconnection Exhausts [8]
    Wang, Y., Wei, F. S., Feng, X. S., Zuo, P. B., Guo, J. P., Xu, X. J. & Li, Z., ApJ, 749, 82
  2. Revealing the sub-structures of the magnetic reconnection separatrix via particle-in-cell simulation [20]
    Zhou, M., Deng, X. H., Pang, Y., Huang, S. Y., Yuan, Z. G., Li, H. M., Xu, X. J., Wang, Y. H., Yao, M. & Wang, D. D., Physics of Plasmas, 19, 072907

2011

  1. Observations of reconnection exhausts associated with large-scale current sheets within a complex ICME at 1 AU [37]
    Xu, X., Wei, F. & Feng, X., Journal of Geophysical Research (Space Physics), 116, A05105

2010

  1. Magnetic cloud boundary layer of 9 November 2004 and its associated space weather effects [5]
    Zuo, P. B., Wei, F. S., Feng, X. S., Xu, X. J. & Song, W. B., Journal of Geophysical Research (Space Physics), 115, A10102

Created on Wed Apr 8 04:33:16 2026.