Publications of Xueshang Feng

A list of publications authored or co-authored by Xueshang Feng, 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: 0000-0001-8605-2159

List of publications ordered by citations
Number of papers: 150 (refereed: 149)
No. of citations: 2277
First author papers: 5 (refereed: 5)

2026

  1. First Light for the New 30 m Parabolic Radio Telescope at ArQi: Implications for Space Weather Monitoring [0]
    Xiong, Ming, Wang, Wei, Su, Cang, Fan, Jin, Peng, Junhui, Cheng, Jun, Gao, Yanchen, Zhang, Man, Ye, Yongzhi, Chen, Zhijun, Zhou, Zhichao, Li, Sha, Zhao, Xinhua, Yang, Liping, Tan, Chengming, Cheng, Wenshuai, Feng, Xueshang & Yan, Yihua, The Astronomical Journal, 171, 125
  2. Space Weather and Low-Altitude Drone Economy [0]
    Xue, Dabin, Zhang, Qing-He, Feng, Xueshang & Wang, Chi, Space Weather, 24, e2025SW004803
  3. Impacts of Space Weather-Induced Satellite Navigation Errors on UAV Path Planning and Energy Consumption [0]
    Xue, Dabin, Zhou, Xinding, Yuan, Ligang, Liu, Zhizhao, Zhang, Qing-He & Feng, Xueshang, Space Weather, 24, e2025SW004739
  4. The Chinese Radio Telescope Array for Interplanetary Scintillation Monitoring [0]
    Yan, Yihua, Wang, Wei, Fan, Jin, Xiong, Ming, Chen, Zhijun, Chen, Linjie, Su, Cang, Li, Sha, Cheng, Jun, Du, Jing & Feng, Xueshang, Space Weather, 24, e2025SW004593

2025

  1. The Role of Photospheric Magnetic Flux Diffusion in Initiation of Solar Eruptions [0]
    Bian, Xinkai, Jiang, Chaowei, Wang, Yang, Zou, Peng, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, Solar Physics, 300, 143
  2. MHD modelling of the near-sun evolution of coronal mass ejection initiated from a sheared arcade [4]
    Cai, Jinnan, Zhang, Ling, Jiang, Chaowei, Yan, Kuo, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, MNRAS, 538, 2569
  3. A Novel Blast Wave Solution for the Propagation of Coronal And Interplanetary Shocks [1]
    Chai, Jiaqi, Zhao, Xinhua, Feng, Xueshang, Xiang, Nanbin, Feng, Shiwei, Deng, Linhua, Wan, Miao & Xu, Tingting, ApJ, 984, 7
  4. 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
  5. Did a current sheet form prior to a major flare in solar active region 11158? [0]
    Duan, Aiying, Jiang, Chaowei & Feng, Xuesheng, MNRAS, 541, 939
  6. A time-dependent three-dimensional dayside magnetopause model based on quasi-elastodynamic theory [1]
    Gu, Yaxin, Wang, Yi, Wei, Fengsi, Feng, Xueshang, Samsonov, Andrey, Song, Xiaojian, Wang, Boyi, Zuo, Pingbing, Jiang, Chaowei, Chen, Yalan, Xu, Xiaojun & Zhou, Zilu, Geoscientific Model Development, 18, 4215
  7. 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
  8. Review of recent observations of magnetic holes in the solar wind [0]
    Li, C. Y., Wang, Y., Wei, F. S., Feng, X. S., Xu, Z. K., Lu, Y. X., Wang, B. Y., Zuo, P. B., Jiang, C. W., Xu, X. J. & Zhou, Z. L., Discover Space, 129, 10
  9. Application of a Low-dissipation HLLD Approximate Riemann Solver to Solar Wind Simulations [0]
    Li, Caixia, Shen, Zhenning, Zhang, Man & Feng, Xueshang, ApJ, 986, 89
  10. MMS Observations of an Active Flux Rope During Asymmetric Magnetic Reconnection [0]
    Liu, Chaoxu, Feng, Xueshang, Shen, Fang, Zhao, Xinhua, Zhong, Dingkun, Qin, Jiamei, Yang, Liping, Zhou, Yufen, Liu, Xiaojing & Xiang, Changqing, Journal of Geophysical Research (Space Physics), 130, e2025JA034540
  11. Backmapping of the High- and Low-latitude Solar Wind under Multiple Heliospheric and Coronal Magnetic Field Configurations [1]
    Ma, Xinyi, Yang, Liping, Feng, Xueshang, Tian, Hui, Wu, Honghong, Shen, Fang, Zhang, Wangning, Ma, Mengxuan, Zhang, Xiao & Wang, Ziwei, ApJ, 994, 160
  12. 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
  13. Simulation of the 2010 September 9 Solar Energetic Particle Event by Using a Data-constrained Transport Model [0]
    Tao, Xinyi, Shen, Fang, Feng, Xueshang, Lian, Wanyi, Tang, Bofeng & Yang, Yi, ApJ, 995, 77
  14. Field-Aligned Currents Induced by Magnetopause Motions Under Pressure Perturbations [1]
    Wang, Boyi, Xu, Xinyu, Nishimura, Yukitoshi, Wu, Yen-Jung, Xu, Zhonghua, Kajdic, Primož, Han, De-Sheng, Wang, Yi & Feng, Xueshang, Geophysical Research Letters, 52, 2024GL111958
  15. 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
  16. 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
  17. 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
  18. Space weather impacts on aviation: bridging scientific understanding and operational implications [0]
    Wang, Y., Luo, R. D., Wei, F. S., Feng, X. S., Wang, B. Y., Zuo, P. B., Jiang, C. W., Xu, X. J. & Zhou, Z. L., Frontiers in Astronomy and Space Sciences, 12, 1553076
  19. The disrupted jet stream and its influence on flight time during solar proton events [1]
    Xu, Xiaoheng, Wang, Yi, Wei, Fengsi, Feng, Xueshang, Bo, Manhui, Tang, Hongwu, Wang, Diansheng, Bian, Lei, Wang, Boyi, Zuo, Pingbing, Jiang, Chaowei, Xu, Xiaojun, Zhou, Zilu, Li, Zeng, Zou, Peng, Li, Yun, Zeng, Liang & Zhu, Xiaoxing, Scientific Reports, 15, 22969
  20. Two-Dimensional Motions of Diffuse Auroral Patches Under Upstream Dynamic Pressure Enhancements of the Bow Shock [0]
    Xu, Xinyu, Wang, Boyi, Nishimura, Yukitoshi, Ebihara, Yusuke, Zhi, Yuda, Wang, Yi & Feng, Xueshang, Geophysical Research Letters, 52, e2025GL119179
  21. Expansion-induced Three-part Morphology of the 2021 December 4 Coronal Mass Ejection [4]
    Yang, Liping, Feng, Xueshang, Shen, Fang, Xiong, Ming, Shen, Chenglong, Chi, Yutian, Wang, Yuming, Yan, Kuo, Ma, Mengxuan, Zhou, Yufen, Zhang, Man & Zhao, Xinhua, ApJ, 981, 109
  22. Natural Generation of Alfvén Waves from Three-dimensional Bursty Interchange Magnetic Reconnection in the Solar Corona [7]
    Yang, Liping, He, Jiansen, Feng, Xueshang, Verscharen, Daniel, Guo, Fan, Li, Hui, Tian, Hui, Li, Wenya, Shen, Fang, Hou, Chuanpeng, Shi, Mijie, Wu, Honghong & Xiong, Ming, ApJ, 982, L25
  23. Predicting Solar Flares Using a Convolutional Neural Network with Extreme-ultraviolet Images [1]
    Yang, Yun, Ni, Yi Wei, Chen, P. F. & Feng, Xue Shang, ApJ, 985, 104
  24. Robust Forecasting and Physical Interpretability of Geomagnetic Storms Using XGBoost and SHAP [0]
    Ye, Yudong, Liu, Jiajia, Hao, Yongqiang, Feng, Xueshang & Cui, Jun, ApJS, 281, 41
  25. Assessing the Geoeffectiveness of Stream Interaction Regions through Physically Interpretable Machine Learning [0]
    Ye, Yudong, Liu, Jiajia, Hao, Yongqiang, Cui, Jun & Feng, Xueshang, ApJ, 993, 10
  26. Socioeconomic impact of space weather on modern technological infrastructure: Great Britain's high-voltage power grid [0]
    Yuan, Ding, Yin, Tong, Wang, Xian, Wang, Ge, Luo, Ding, Xue, Fan, Chen, Wen, Feng, Xueshang & Feng, Song, Science in China E: Technological Sciences, 68, 1980601
  27. A 2D Fourth-Order CESE Scheme for Solving the Ideal MHD Equations [0]
    Yufen Zhou, Yufen Zhou, Xueshang Feng, Xueshang Feng, Fang Shen, Fang Shen, Liping Yang, Liping Yang & Man Zhang, Man Zhang, Communications in Computational Physics, 38, 348
  28. Successively Equatorward Propagating Ionospheric Acoustic Waves and Possible Mechanisms Following the Mw 7.5 Earthquake in Noto, Japan, on 1 January 2024 [1]
    Zhang, Bing, Liu, Tong, Feng, Xueshang & Xu, Guochang, Space Weather, 23, e2024SW003957
  29. Discontinuous Galerkin method with constrained transport for modelling solar wind in spherical coordinates [0]
    Zhang, Man, Feng, Xueshang, Li, Caixia, Yang, Liping, Zhou, Yufen, Liu, Xiaojing & Bai, Yujuan, MNRAS, 536, 3631
  30. A Deep Learning–Based Multimodal F10.7 Prediction with Mamba [0]
    Zhao, Dong, Dou, Fengping, Feng, Xueshang, Huang, Xin, Ma, Sai & Xu, Long, ApJS, 280, 22

2024

  1. On the northward shift of the heliospheric current sheet at the end of solar cycle 24 [0]
    Li, Huichao & Feng, Xueshang, MNRAS, 532, 3180
  2. A model of solar magnetic flux rope eruption initiated primarily by magnetic reconnection [9]
    Liu, Qingjun, Jiang, Chaowei, Bian, Xinkai, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, MNRAS, 529, 761
  3. Why are non-radial solar eruptions less frequent than radial ones? [7]
    Liu, Qingjun, Jiang, Chaowei, Feng, Xuesheng, Zuo, Pingbing & Wang, Yi, MNRAS, 533, L25
  4. Modeling energetic proton transport in a corotating interaction region. An energetic particle event observed by STEREO-A from 21 to 24 August 2016 [3]
    Tao, Xinyi, Shen, Fang, Wei, Wenwen, Zhu, Yuji, Luo, Xi & Feng, XueShang, A&A, 682, A82
  5. Statistical Study of Hot Flow Anomaly Induced Ground Magnetic Ultra-Low Frequency Oscillations [3]
    Wang, Boyi, Liu, Jiaqi, Han, Desheng, Wang, Yi & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 129, e2024JA032667
  6. Commencement and Interruption of Relativistic Electron Dropout in the Heart of the Outer Radiation Belt Induced by a Magnetic Cloud Event [1]
    Wei, Jiayun, Zou, Zhengyang, Zuo, Pingbing, Ni, Binbin, Ruan, Mengsi & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 129, e2023JA032138
  7. Author Correction: Transverse oscillations and an energy source in a strongly magnetized sunspot [0]
    Yuan, Ding, Fu, Libo, Cao, Wenda, Kuźma, Błażej, Geeraerts, Michaël, Trelles Arjona, Juan C., Murawski, Kris, Van Doorsselaere, Tom, Srivastava, Abhishek K., Miao, Yuhu, Feng, Song, Feng, Xueshang, Quintero Noda, Carlos, Ruiz Cobo, Basilio & Su, Jiangtao, Nature Astronomy, 8, 674
  8. Prediction of Solar Coronal Structures Using Fourier Neural Operators Based on the Solar Photospheric Magnetic Field Observation [0]
    Zhao, Jingmin & Feng, Xueshang, Space Weather, 22, e2024SW003875

2023

  1. A Fundamental Mechanism of Solar Eruption Initiation in a Multipolar Magnetic Field [5]
    Bian, Xinkai, Jiang, Chaowei, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, ApJ, 956, 73
  2. A Study of Preflare Solar Coronal Magnetic Fields: Magnetic Energy and Helicity [8]
    Duan, Aiying, Jiang, Chaowei & Feng, Xueshang, ApJ, 945, 102
  3. Time-dependent boundary conditions for data-driven coronal global and spherical wedge-shaped models [10]
    Feng, Xueshang, Lv, Jiakun, Xiang, Changqing & Jiang, Chaowei, MNRAS, 519, 6297
  4. 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
  5. A model of failed solar eruption initiated and destructed by magnetic reconnection [21]
    Jiang, Chaowei, Duan, Aiying, Zou, Peng, Zhou, Zhenjun, Bian, Xinkai, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, MNRAS, 525, 5857
  6. Implementation of the HLL-GRP solver for multidimensional ideal MHD simulations based on finite volume method [1]
    Liu, Mengqing, Feng, Xueshang & Wang, Xinyi, Journal of Computational Physics, 473, 111687
  7. Modeling the Solar Corona with an Implicit High-order Reconstructed Discontinuous Galerkin Scheme [7]
    Liu, XiaoJing, Feng, Xueshang, Zhang, Man & Zhao, Jingmin, ApJS, 265, 19
  8. Numerical Simulation of Solar Magnetic Flux Emergence Using the AMR-CESE-MHD Code [3]
    Liu, Zhipeng, Jiang, Chaowei, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, ApJS, 264, 13
  9. 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
  10. Longitudinal, Latitudinal, and Local Time Variations of the 14.5-Day Periodic Oscillation in the Ionosphere During 2014-2015 SSW [0]
    Tang, Qiong, Li, Jinze, Zhou, Chen, Du, Zhitao, Sun, Haiyang, Liu, Yi, Yu, Zhibin, Zhao, Zhengyu & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 128, e2023JA031523
  11. Low Altitude Tailing Es (LATTE): Analysis of Sporadic-E Layer Height at Different Latitudes of Middle and Low Region [2]
    Tang, Qiong, Zhou, Chen, Liu, Huixin, Liu, Yi, Zhao, Jiaqi, Yu, Zhibin, Hu, Lianhuan, Zhao, Zhengyu & Feng, Xueshang, Space Weather, 21, e2022SW003323
  12. MHD Simulation of a Solar Eruption from Active Region 11429 Driven by a Photospheric Velocity Field [8]
    Wang, Xinyi, Jiang, Chaowei & Feng, Xueshang, ApJ, 942, L41
  13. Additional flight delays and magnetospheric-ionospheric disturbances during solar storms [7]
    Wang, Y., Xu, X. H., 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, 3246
  14. Interplanetary scintillation observation and space weather modelling [4]
    Xiong, Ming, Feng, Xueshang, Li, Bo, He, Jiansen, Wang, Wei, Gao, Yanchen, Zhang, Man, Yang, Liping, Huang, Zhenghua, Cheng, Jun, Su, Cang, Yan, Yihua & Ying, Kairan, Frontiers in Astronomy and Space Sciences, 10, 1159166
  15. Characteristics of flight delays during solar flares [6]
    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
  16. Global Morphology Distortion of the 2021 October 9 Coronal Mass Ejection from an Ellipsoid to a Concave Shape [10]
    Yang, Liping, Hou, Chuanpeng, Feng, Xueshang, He, Jiansen, Xiong, Ming, Zhang, Man, Zhou, Yufen, Shen, Fang, Zhao, Xinhua, Li, Huichao, Yang, Yi & Liu, Xiaojing, ApJ, 942, 65
  17. Energy transfer of imbalanced Alfvénic turbulence in the heliosphere [13]
    Yang, Liping, He, Jiansen, Verscharen, Daniel, Li, Hui, Bowen, Trevor A., Bale, Stuart D., Wu, Honghong, Li, Wenya, Wang, Ying, Zhang, Lei, Feng, Xueshang & Wu, Ziqi, Nature Communications, 14, 7955
  18. Prediction of the Transit Time of Coronal Mass Ejections with an Ensemble Machine-learning Method [10]
    Yang, Y., Liu, J. J., Feng, X. S., Chen, P. F. & Zhang, B., ApJS, 268, 69
  19. Transverse oscillations and an energy source in a strongly magnetized sunspot [21]
    Yuan, Ding, Fu, Libo, Cao, Wenda, Kuźma, Błażej, Geeraerts, Michaël, Trelles Arjona, Juan C., Murawski, Kris, Van Doorsselaere, Tom, Srivastava, Abhishek K., Miao, Yuhu, Feng, Song, Feng, Xueshang, Quintero Noda, Carlos, Ruiz Cobo, Basilio & Su, Jiangtao, Nature Astronomy, 7, 856
  20. A Data-constrained Scheme for the Reconstruction of Solar Wind Parameters in the Inner Heliosphere [2]
    Zhang, Man, Feng, Xueshang, Yang, Liping & Liu, Xiaojing, ApJS, 264, 36
  21. A mutually embedded perception model for solar corona [3]
    Zhao, Jingmin, Feng, Xueshang, Xiang, Changqing & Jiang, Chaowei, MNRAS, 523, 1577
  22. A Two-Dimensional Third-Order CESE Scheme for Ideal MHD Equations [1]
    Zhou, Yufen & Feng, Xueshang, Communications in Computational Physics, 34, 94

2022

  1. Homologous Coronal Mass Ejections Caused by Recurring Formation and Disruption of Current Sheet within a Sheared Magnetic Arcade [15]
    Bian, Xinkai, Jiang, Chaowei, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, ApJ, 925, L7
  2. Numerical simulation of a fundamental mechanism of solar eruption with a range of magnetic flux distributions [19]
    Bian, Xinkai, Jiang, Chaowei, Feng, Xueshang, Zuo, Pingbing, Wang, Yi & Wang, Xinyi, A&A, 658, A174
  3. Structural evolution of a magnetic flux rope associated with a major flare in the solar active region 12205 [7]
    Duan, Aiying, Jiang, Chaowei, Guo, Yue, Feng, Xueshang & Cui, Jun, A&A, 659, A25
  4. Data-driven modeling of solar coronal magnetic field evolution and eruptions [49]
    Jiang, Chaowei, Feng, Xueshang, Guo, Yang & Hu, Qiang, The Innovation, 3, 100236
  5. Direct discontinuous Galerkin method for potential magnetic field solutions [2]
    Liu, XiaoJing, Feng, Xueshang, Lv, Jiakun, Wang, Xinyi & Zhang, Man, Frontiers in Astronomy and Space Sciences, 9, 1055969
  6. Propagation characteristics of coronal mass ejections (CMEs) in the corona and interplanetary space [24]
    Shen, Fang, Shen, Chenglong, Xu, Mengjiao, Liu, Yousheng, Feng, Xueshang & Wang, Yuming, Reviews of Modern Plasma Physics, 6, 8
  7. 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
  8. Global Structure and Seasonal Variations of the Tidal Amplitude in Sporadic-E Layer [9]
    Tang, Qiong, Zhou, Chen, Liu, Huixin, Du, Zhitao, Liu, Yi, Zhao, Jiaqi, Yu, Zhibin, Zhao, Zhengyu & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 127, e2022JA030711
  9. MHD Simulation of Homologous Eruptions from Solar Active Region 10930 Caused by Sunspot Rotation [10]
    Wang, Xinyi, Jiang, Chaowei, Feng, Xueshang, Duan, Aiying & Bian, Xinkai, ApJ, 938, 61
  10. Energy Spectra Variations of Energetic Ions Associated With a Stream Interaction Region [3]
    Wei, Wenwen, Zhuang, Bin, Huang, Jia, Shen, Fang, Zhao, Lulu, Liu, Mingzhe, Zhang, Xiaoxin & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 127, e2022JA030652
  11. Fast plasmoid-mediated reconnection in a solar flare [65]
    Yan, Xiaoli, Xue, Zhike, Jiang, Chaowei, Priest, E. R., Kliem, Bernhard, Yang, Liheng, Wang, Jincheng, Kong, Defang, Song, Yongliang, Feng, Xueshang & Liu, Zhong, Nature Communications, 13, 640
  12. Predicting the Daily 10.7-cm Solar Radio Flux Using the Long Short-Term Memory Method [16]
    Zhang, Wanting, Zhao, Xinhua, Feng, Xueshang, Liu, Cheng'ao, Xiang, Nanbin, Li, Zheng & Lu, Wei, Universe, 8, 30
  13. The Study of Daytime Ionospheric E-Region Radar Echoes Simultaneously Observed by Qujing VHF Radar and Multi-Ionosondes [4]
    Zhu, Yunzhou, Tang, Qiong, Deng, Zhongxin, Zhou, Chen, Liu, Yi, Xu, Tong, Wang, Zhuangkai, Zhao, Zhengyu, Wei, Fengsi & Feng, Xueshang, Space Weather, 20, e2021SW002998

2021

  1. Structure and Evolution of an Inter-Active Region Large-scale Magnetic Flux Rope [8]
    Duan, Aiying, Jiang, Chaowei, Zou, Peng, Feng, Xueshang & Cui, Jun, ApJ, 906, 45
  2. Variation of Magnetic Flux Ropes through Major Solar Flares [8]
    Duan, Aiying, Jiang, Chaowei, Zhou, Zhenjun, Feng, Xueshang & Cui, Jun, ApJ, 907, L23
  3. Magnetohydrodynamic Modeling of the Solar Corona with an Effective Implicit Strategy [17]
    Feng, Xueshang, Wang, Haopeng, Xiang, Changqing, Liu, Xiaojing, Zhang, Man, Zhao, Jingmin & Shen, Fang, ApJS, 257, 34
  4. A fundamental mechanism of solar eruption initiation [143]
    Jiang, Chaowei, Feng, Xueshang, Liu, Rui, Yan, XiaoLi, Hu, Qiang, Moore, Ronald L., Duan, Aiying, Cui, Jun, Zuo, Pingbing, Wang, Yi & Wei, Fengsi, Nature Astronomy, 5, 1126
  5. Modified Path-conservative HLLEM Scheme for Magnetohydrodynamic Solar Wind Simulations [6]
    Li, Caixia, Feng, Xueshang, Li, Huichao & Wei, Fengsi, ApJS, 253, 24
  6. An Entropy-stable Ideal EC-GLM-MHD Model for the Simulation of the Three-dimensional Ambient Solar Wind [3]
    Li, Caixia, Feng, Xueshang & Wei, Fengsi, ApJS, 257, 24
  7. Is Solar Minimum 24/25 Another Unusual One? [10]
    Li, Huichao, Feng, Xueshang & Wei, Fengsi, ApJ, 917, L26
  8. Comparison of Synoptic Maps and PFSS Solutions for The Declining Phase of Solar Cycle 24 [31]
    Li, Huichao, Feng, Xueshang & Wei, Fengsi, Journal of Geophysical Research (Space Physics), 126, e28870
  9. Bifurcated outflow jet in a solar wind reconnection exhaust [12]
    Liu, Chaoxu, Feng, Xueshang, Guo, Jianpeng & Fu, Huiyuan, Astrophysics and Space Science, 366, 2
  10. Occurrence and Variations of Middle and Low Latitude Sporadic E Layer Investigated With Longitudinal and Latitudinal Chains of Ionosondes [11]
    Tang, Qiong, Zhao, Jiaqi, Yu, Zhibin, Liu, Yi, Hu, Lianhuan, Zhou, Chen, Zhao, Zhengyu & Feng, Xueshang, Space Weather, 19, e02942
  11. The Possible Role of Turbopause on Sporadic-E Layer Formation at Middle and Low Latitudes [10]
    Tang, Qiong, Zhou, Chen, Liu, Huixin, Liu, Yi, Zhao, Jiaqi, Yu, Zhibin, Zhao, Zhengyu & Feng, Xueshang, Space Weather, 19, e02883
  12. Influence of Large-scale Field Structures on the Scaling Anisotropy in 3D MHD Turbulence [5]
    Yang, Liping, Tu, Chuanyi, He, Jiansen, Wu, Honghong, Wang, Xin & Feng, Xueshang, ApJ, 920, 14
  13. Numerical MHD Simulations of the 3D Morphology and Kinematics of the 2017 September 10 CME-driven Shock from the Sun to Earth [15]
    Yang, Liping, Wang, Haopeng, Feng, Xueshang, Xiong, Ming, Zhang, Man, Zhu, Bei, Li, Huichao, Zhou, Yufen, Shen, Fang, Zhao, Xinhua & Liu, Xiaojing, ApJ, 918, 31
  14. A Provably Positive, Divergence-free Constrained Transport Scheme for the Simulation of Solar Wind [7]
    Zhang, Man, Feng, Xueshang, Liu, Xiaojing & Yang, Liping, ApJS, 257, 32
  15. Numerical Study of Two Injection Methods for the 2007 November 15 Coronal Mass Ejection in the Inner Heliosphere [3]
    Zhang, Man, Feng, Xueshang, Shen, Fang & Yang, Liping, ApJ, 918, 35
  16. Interplanetary Coronal Mass Ejections from MAVEN Orbital Observations at Mars [10]
    Zhao, Dan, Guo, Jianpeng, Huang, Hui, Lin, Haibo, Hong, Yichun, Feng, Xueshang, Cui, Jun, Wei, Yong, Wang, Yang, Feng, Yongyong, Li, Lei & Liu, Libo, ApJ, 923, 4
  17. 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. Lag-correlated rising tones of electron cyclotron harmonic and whistler-mode upper-band chorus waves [8]
    Gao, Zhonglei, Shang, Xiongjun, Zuo, Pingbing, Zou, Zhengyang, Wang, Geng, Feng, Xueshang, Wang, Yi, Guan, Chunyi & Wei, Fengsi, Physics of Plasmas, 27, 062903
  2. Data-driven MHD Simulation of the Formation and Initiation of a Large-scale Preflare Magnetic Flux Rope in AR 12371 [20]
    He, Wen, Jiang, Chaowei, Zou, Peng, Duan, Aiying, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, ApJ, 892, 9
  3. Simulation of the Interplanetary Bz Using a Data-driven Heliospheric Solar Wind Model [8]
    Li, Huichao, Feng, Xueshang, Zuo, Pingbing & Wei, Fengsi, ApJ, 900, 76
  4. A Numerical Study of the Effects of Corotating Interaction Regions on Cosmic-Ray Transport [23]
    Luo, Xi, Zhang, Ming, Feng, Xueshang, Potgieter, Marius S., Shen, Fang & Bazilevskaya, Galina, ApJ, 899, 90
  5. Triggering Mechanism and Material Transfer of a Failed Solar Filament Eruption [39]
    Yan, Xiaoli, Xue, Zhike, Cheng, Xin, Zhang, Jun, Wang, Jincheng, Kong, Defang, Yang, Liheng, Chen, Guorong & Feng, Xueshang, ApJ, 889, 106
  6. Fast Magnetic Reconnection with Turbulence in High Lundquist Number Limit [32]
    Yang, Liping, Li, Hui, Guo, Fan, Li, Xiaocan, Li, Shengtai, He, Jiansen, Zhang, Lei & Feng, Xueshang, ApJ, 901, L22
  7. Continuous Null-point Magnetic Reconnection Builds Up a Torus Unstable Magnetic Flux Rope Triggering the X9.3 Flare in Solar AR 12673 [24]
    Zou, Peng, Jiang, Chaowei, Wei, Fengsi, Feng, Xueshang, Zuo, Pingbing & Wang, Yi, ApJ, 890, 10
  8. Two-step Dropouts of Radiation Belt Electron Phase Space Density Induced by a Magnetic Cloud Event [20]
    Zou, Zhengyang, Zuo, Pingbing, Ni, Binbin, Gao, Zhonglei, Wang, Geng, Zhao, Zhengyu, Feng, Xueshang & Wei, Fengsi, ApJ, 895, L24

2019

  1. A Study of Pre-flare Solar Coronal Magnetic Fields: Magnetic Flux Ropes [65]
    Duan, Aiying, Jiang, Chaowei, He, Wen, Feng, Xueshang, Zou, Peng & Cui, Jun, ApJ, 884, 73
  2. A New MHD Model with a Rotated-hybrid Scheme and Solenoidality-preserving Approach [26]
    Feng, Xueshang, Liu, XiaoJing, Xiang, Changqing, Li, HuiChao & Wei, Fengsi, ApJ, 871, 226
  3. Possible Detection of Torsional Alfvén Waves within an Interplanetary Magnetic Cloud [3]
    Guo, Jianpeng, Wang, Zehao, Feng, Xueshang, Li, Bo, Shi, Mijie, Huang, Hui, Lin, Haibo, Yang, Lei, Liu, Chaoxu, Zhong, Jiayong, Wei, Yong, Yan, Yihua & Wan, Weixing, ApJ, 874, L19
  4. Magnetohydrodynamic Simulations for Solar Active Regions using Time-series Data of Surface Plasma Flow and Electric Field Inferred from Helioseismic Magnetic Imager Vector Magnetic Field Measurements [29]
    Hayashi, Keiji, Feng, Xueshang, Xiong, Ming & Jiang, Chaowei, ApJ, 871, L28
  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. Dynamic patterns of self-organization inflow in collisionless magnetic reconnection [3]
    Liu, Chaoxu, Feng, Xueshang, Wan, Minping & Guo, Jianpeng, Astrophysics and Space Science, 364, 127
  7. Hyperbolic Cell-centered Finite Volume Method for Obtaining Potential Magnetic Field Solutions [4]
    Liu, Xiaojing, Feng, Xueshang, Xiang, Changqing & Shen, Fang, ApJ, 887, 33
  8. A Numerical Study of Cosmic Proton Modulation Using AMS-02 Observations [29]
    Luo, Xi, Potgieter, Marius S., Bindi, Veronica, Zhang, Ming & Feng, Xueshang, ApJ, 878, 6
  9. Asymmetric Transport of the Earth’s Polar Outflows by the Interplanetary Magnetic Field [3]
    Wang, Juan, Huang, Can, Ge, Yasong S., Du, Aimin, Feng, Xueshang & Li, Kun, ApJ, 881, L34
  10. A multi-GPU finite volume solver for magnetohydrodynamics-based solar wind simulations [12]
    Wang, Yuan, Feng, Xueshang, Zhou, Yufen & Gan, Xinbiao, Computer Physics Communications, 238, 181
  11. Multispacecraft Observation of Unidirectional and Bidirectional Alfvén Waves within Large-scale Magnetic Clouds [4]
    Wang, Zehao, Feng, Xueshang & Zheng, Jianchuan, ApJ, 887, L18
  12. Multilayered Kelvin-Helmholtz Instability in the Solar Corona [24]
    Yuan, Ding, Shen, Yuandeng, Liu, Yu, Li, Hongbo, Feng, Xueshang & Keppens, Rony, ApJ, 884, L51
  13. Intermittencies and Local Heating in Magnetic Cloud Boundary Layers [8]
    Zhou, Zilu, Zuo, Pingbing, Feng, Xueshang, Wang, Yi, Jiang, Chaowei & Song, Xiaojian, Solar Physics, 294, 149
  14. 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
  15. A Two-step Magnetic Reconnection in a Confined X-class Flare in Solar Active Region 12673 [34]
    Zou, Peng, Jiang, Chaowei, Feng, Xueshang, Zuo, Pingbing, Wang, Yi & Wei, Fengsi, ApJ, 870, 97

2018

  1. An MHD Simulation of Solar Active Region 11158 Driven with a Time-dependent Electric Field Determined from HMI Vector Magnetic Field Measurement Data [56]
    Hayashi, Keiji, Feng, Xueshang, Xiong, Ming & Jiang, Chaowei, ApJ, 855, 11
  2. Upward Frequency Sweeping Due to the Nonlinear Resonance of Multiwave Coupling and Its Significant Contribution to the Hall Effect at the Reconnection Point [1]
    Huang, Fucheng & Feng, Xueshang, Geophysical Research Letters, 45, 11,572
  3. Magnetohydrodynamic Simulation of the X9.3 Flare on 2017 September 6: Evolving Magnetic Topology [61]
    Jiang, Chaowei, Zou, Peng, Feng, Xueshang, Hu, Qiang, Liu, Rui, Vemareddy, P., Duan, Aiying, Zuo, Pingbing, Wang, Yi & Wei, Fengsi, ApJ, 869, 13
  4. Formation and Eruption of an Active Region Sigmoid. II. Magnetohydrodynamic Simulation of a Multistage Eruption [29]
    Jiang, Chaowei, Feng, Xueshang & Hu, Qiang, ApJ, 866, 96
  5. Solar Coronal Modeling by Path-conservative HLLEM Riemann Solver [15]
    Li, Caixia, Feng, Xueshang, Xiang, Changqing, Zhang, Man, Li, Huichao & Wei, Fengsi, ApJ, 867, 42
  6. CESE-HLL Magnetic Field-Driven Modeling of the Background Solar Wind During Year 2008 [25]
    Li, Huichao & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 123, 4488
  7. A Study of Electron Forbush Decreases with a 3D SDE Numerical Model [10]
    Luo, Xi, Potgieter, Marius S., Zhang, Ming & Feng, Xueshang, ApJ, 860, 160
  8. Forecasting the Arrival Time of Coronal Mass Ejections: Analysis of the CCMC CME Scoreboard [142]
    Riley, Pete, Mays, M. Leila, Andries, Jesse, Amerstorfer, Tanja, Biesecker, Douglas, Delouille, Veronique, Dumbović, Mateja, Feng, Xueshang, Henley, Edmund, Linker, Jon A., Möstl, Christian, Nuñez, Marlon, Pizzo, Vic, Temmer, Manuela, Tobiska, W. K., Verbeke, C., West, Matthew J. & Zhao, Xinhua, Space Weather, 16, 1245
  9. Three-dimensional MHD Simulation of Solar Wind Using a New Boundary Treatment: Comparison with In Situ Data at Earth [48]
    Shen, Fang, Yang, Zicai, Zhang, Jie, Wei, Wenwen & Feng, Xueshang, ApJ, 866, 18
  10. The Merging of Two Stream Interaction Regions within 1 au: The Possible Role of Magnetic Reconnection [5]
    Wang, Zehao, Guo, Jianpeng, Feng, Xueshang, Liu, Chaoxu, Huang, Hui, Lin, Haibo, Tan, Chenming, Yan, Yihua & Wan, Weixing, ApJ, 869, L6
  11. Prospective Out-of-ecliptic White-light Imaging of Coronal Mass Ejections Traveling through the Corona and Heliosphere [6]
    Xiong, Ming, Davies, Jackie A., Harrison, Richard A., Zhou, Yufen, Feng, Xueshang, Xia, Lidong, Li, Bo, Liu, Ying D., Hayashi, Keiji, Li, Huichao & Yang, Liping, ApJ, 852, 111
  12. Prospective White-light Imaging and In Situ Measurements of Quiescent Large-scale Solar-wind Streams from the Parker Solar Probe and Solar Orbiter [7]
    Xiong, Ming, Davies, Jackie A., Feng, Xueshang, Li, Bo, Yang, Liping, Xia, Lidong, Harrison, Richard A., Hayashi, Keiji, Li, Huichao & Zhou, Yufen, ApJ, 868, 137
  13. Prediction of Solar Wind Speed at 1 AU Using an Artificial Neural Network [48]
    Yang, Yi, Shen, Fang, Yang, Zicai & Feng, Xueshang, Space Weather, 16, 1227
  14. Nature of Magnetic Holes above Ion Scales: A Mixture of Stable Slow Magnetosonic and Unstable Mirror Modes in a Double-polytropic Scenario? [19]
    Zhang, Lei, He, Jiansen, Zhao, Jinsong, Yao, Shuo & Feng, Xueshang, ApJ, 864, 35
  15. Influence of the Solar Cycle on Turbulence Properties and Cosmic-Ray Diffusion [95]
    Zhao, L.-L., Adhikari, L., Zank, G. P., Hu, Q. & Feng, X. S., ApJ, 856, 94
  16. 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. Data-driven Modeling of the Solar Corona by a New Three-dimensional Path-conservative Osher-Solomon MHD Model [31]
    Feng, Xueshang, Li, Caixia, Xiang, Changqing, Zhang, Man, Li, HuiChao & Wei, Fengsi, ApJS, 233, 10
  2. Reconstruction of a Large-scale Pre-flare Coronal Current Sheet Associated with a Homologous X-shaped Flare [16]
    Jiang, Chaowei, Yan, Xiaoli, Feng, Xueshang, Duan, Aiying, Hu, Qiang, Zuo, Pingbing & Wang, Yi, ApJ, 850, 8
  3. Double-peaked core field of flux ropes during magnetic reconnection [4]
    Liu, Chaoxu, Feng, Xueshang, Nakamura, Rumi, Guo, Jianpeng & Wang, Rongsheng, Journal of Geophysical Research (Space Physics), 122, 6374
  4. A Numerical Study of Forbush Decreases with a 3D Cosmic-Ray Modulation Model Based on an SDE Approach [36]
    Luo, Xi, Potgieter, Marius S., Zhang, Ming & Feng, Xueshang, ApJ, 839, 53
  5. Multiscale Pressure-Balanced Structures in Three-Dimensional Magnetohydrodynamic Turbulence [20]
    Yang, Liping, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Zhang, Lei, Marsch, Eckart, Wang, Linghua, Wang, Xin & Feng, Xueshang, ApJ, 836, 69
  6. Cosmic Ray Diffusion Tensor throughout the Heliosphere Derived from a Nearly Incompressible Magnetohydrodynamic Turbulence Model [60]
    Zhao, L.-L., Adhikari, L., Zank, G. P., Hu, Q. & Feng, X. S., ApJ, 849, 88
  7. Correlation between Angular Widths of CMEs and Characteristics of Their Source Regions [16]
    Zhao, X. H., Feng, X. S., Feng, H. Q. & Li, Z., ApJ, 849, 79

2016

  1. How Did a Major Confined Flare Occur in Super Solar Active Region 12192? [85]
    Jiang, Chaowei, Wu, S. T., Yurchyshyn, Vasyl, Wang, Haiming, Feng, Xueshang & Hu, Qiang, ApJ, 828, 62
  2. A Numerical Simulation of Cosmic Ray Modulation Near the Heliopause. II. Some Physical Insights [20]
    Luo, Xi, Potgieter, Marius S., Zhang, Ming, Pogorelov, Nikolai V., Feng, Xueshang & Strauss, Du Toit R., ApJ, 826, 182
  3. Dark Post-flare Loops Observed by the Solar Dynamics Observatory [15]
    Song, Qiao, Wang, Jing-Song, Feng, Xueshang & Zhang, Xiaoxin, ApJ, 821, 83

2015

  1. A Numerical Simulation of Cosmic-Ray Modulation Near the Heliopause [32]
    Luo, Xi, Zhang, Ming, Potgieter, Marius, Feng, Xueshang & Pogorelov, N. V., ApJ, 808, 82
  2. The Formation of Rotational Discontinuities in Compressive Three-dimensional MHD Turbulence [24]
    Yang, Liping, Zhang, Lei, He, Jiansen, Tu, Chuanyi, Wang, Linghua, Marsch, Eckart, Wang, Xin, Zhang, Shaohua & Feng, Xueshang, ApJ, 809, 155
  3. Numerical Simulation of Fast-mode Magnetosonic Waves Excited by Plasmoid Ejections in the Solar Corona [42]
    Yang, Liping, Zhang, Lei, He, Jiansen, Peter, Hardi, Tu, Chuanyi, Wang, Linghua, Zhang, Shaohua & Feng, Xueshang, ApJ, 800, 111
  4. 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
  5. 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

2014

  1. A New Three-dimensional Solar Wind Model in Spherical Coordinates with a Six-component Grid [43]
    Feng, Xueshang, Zhang, Man & Zhou, Yufen, ApJS, 214, 6
  2. Nonlinear Force-free Field Extrapolation of a Coronal Magnetic Flux Rope Supporting a Large-scale Solar Filament from a Photospheric Vector Magnetogram [68]
    Jiang, Chaowei, Wu, S. T., Feng, Xueshang & Hu, Qiang, ApJ, 786, L16

Created on Wed Apr 8 04:28:41 2026.