Publications of Yi Wang

A list of publications authored or co-authored by Yi Wang, 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: 0000-0002-7094-9794

List of publications ordered by citations
Number of papers: 64 (refereed: 63)
No. of citations: 752
First author papers: 7 (refereed: 6)

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. 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
  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. 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
  5. Betatron Cooling of Halo and Strahl Electrons in the Solar Wind [0]
    Meng, Weiduo, Guo, Jianpeng, Chen, Yan, Wang, Zelin, Fu, Huishan, Wang, Yi & Wei, Yong, ApJ, 983, L14
  6. 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
  7. 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
  8. 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
  9. 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
  10. 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
  11. 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
  12. 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
  13. 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

2024

  1. Analytical solution of steady reconnection outflows in a time-varying three-dimensional reconnection model with generalized spatiotemporal distributions [0]
    Chen, Y. L., Wang, Y., Wei, F. S., Feng, X. S., Zhou, Z. L., Wang, B. Y., Zuo, P. B., Jiang, C. W., Gu, Y. X., Wang, L. D., Song, X. J. & Xu, X. J., Frontiers in Physics, 12, 1439949
  2. Statistical Study of Hot Flow Anomaly Induced Ground Magnetic Ultra-Low Frequency Oscillations [4]
    Wang, Boyi, Liu, Jiaqi, Han, Desheng, Wang, Yi & Feng, Xueshang, Journal of Geophysical Research (Space Physics), 129, e2024JA032667

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. 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
  3. 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
  4. 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
  5. 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
  6. 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

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. 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
  4. The Geoeffectiveness of Solar Wind Current Sheets and Its Modulation by Foreshock Ions [2]
    Wang, Boyi, Wang, Yi, Liu, Terry Z. & Angelopoulos, Vassilis, Geophysical Research Letters, 49, e98918
  5. 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
  6. 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. A fundamental mechanism of solar eruption initiation [144]
    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
  2. Investigations of Sizes and Dynamical Motions of Solar Photospheric Granules by a Novel Granular Segmenting Algorithm [5]
    Liu, Yanxiao, Jiang, Chaowei, Yuan, Ding, Zuo, Pingbing, Wang, Yi & Cao, Wenda, ApJ, 923, 133
  3. 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
  4. 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. Evidence of Nonlinear Interactions Between Magnetospheric Electron Cyclotron Harmonic Waves [9]
    Gao, Zhonglei, Zuo, Pingbing, Feng, Xueshang, Wang, Yi, Jiang, Chaowei & Wei, Fengsi, Geophysical Research Letters, 47, e88452
  3. 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
  4. 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

2019

  1. Low-frequency hiss-like whistler-mode waves generated by nonlinear three-wave interactions outside the plasmasphere [7]
    Gao, Zhonglei, Zou, Zhengyang, Zuo, Pingbing, Wang, Yi, He, Zhaoguo & Wei, Fengsi, Physics of Plasmas, 26, 122901
  2. Reconstruction of a Highly Twisted Magnetic Flux Rope for an Inter-Active-Region X-Class Solar Flare [11]
    Jiang, Chaowei, Duan, Aiying, Feng, Xueshang, Zou, Peng, Zuo, Pingbing & Wang, Yi, Frontiers in Astronomy and Space Sciences, 6, 63
  3. 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
  4. Large-Scale Characteristics of Flux Transfer Events on the Dayside Magnetopause [16]
    Sun, T. R., Tang, B. B., Wang, C., Guo, X. C. & Wang, Y., Journal of Geophysical Research (Space Physics), 124, 2425
  5. 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
  6. 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
  7. 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
  8. 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
  9. A Statistical Study of Solar Filament Eruptions that Form High-speed Coronal Mass Ejections [32]
    Zou, Peng, Jiang, Chaowei, Wei, Fengsi, Zuo, Pingbing & Wang, Yi, ApJ, 884, 157

2018

  1. 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
  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. 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
  2. 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
  3. 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

2016

  1. Magnetic Cloud Boundary Layers and Magnetic Reconnection [88]
    Wang, Yi,

2015

  1. 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
  2. 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
  3. 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
  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
  6. 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

2012

  1. Efficiency of solar wind energy coupling to the ionosphere [13]
    Guo, Jianpeng, Feng, Xueshang, Emery, Barbara A. & Wang, Yi, Journal of Geophysical Research (Space Physics), 117, A07303
  2. Different Bz response regions in the nightside magnetosphere after the arrival of an interplanetary shock: Multipoint observations compared with MHD simulations [8]
    Sun, T. R., Wang, C. & Wang, Y., Journal of Geophysical Research (Space Physics), 117, A05227
  3. 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

2011

  1. Magnetic Reconnection Under Solar Coronal Conditions with the 2.5D AMR Resistive MHD Model [12]
    Zhang, Shao-Hua, Feng, Xue-Shang, Wang, Yi & Yang, Li-Ping, Chinese Physics Letters, 28, 089601

2010

  1. Energetic Electrons Associated with Magnetic Reconnection in the Magnetic Cloud Boundary Layer [40]
    Wang, Y., Wei, F. S., Feng, X. S., Zhang, S. H., Zuo, P. B. & Sun, T. R., Physical Review Letters, 105, 195007

2008

  1. Numerical Simulation of Radial Plasma Transport in the Saturn's Magnetosphere [1]
    WANG, Yi & CHEN, Chu-Xin, Chinese Journal of Geophysics, 51, 444

2007

  1. The Source of Saturn's Kilometric Radiation and the Magnetic Field Line's Spirality [0]
    WANG, Yi & CHEN, Chu-Xin, Chinese Journal of Geophysics, 50, 586

Created on Wed Apr 8 04:35:52 2026.