Publications of Zhongwei Yang

A list of publications authored or co-authored by Zhongwei Yang, 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: 0000-0002-1509-1529

List of publications ordered by citations
Number of papers: 33 (refereed: 32)
No. of citations: 458
First author papers: 8 (refereed: 7)

2026

1. Evidence for a Mixture of Mirror Mode and Electromagnetic Ion Cyclotron Waves in the Martian Magnetosheath [0]
   Liu, Ziyong, Ge, Yasong, Tsurutani, Bruce, Shan, Lican, Yang, Zhongwei, Huang, Can, Du, Aimin & Fan, Jinqiao, ApJ, 998, 103

2025

1. Radial Evolution of Turbulence Spectra on the Jovian Magnetosheath Flanks: Juno Observations [0]
   Li, Hui, Li, Haoyu, Yang, Zhongwei & Wang, Chi, ApJ, 991, 214
2. Spectral Evolution of Pickup Ions across Interplanetary Shocks in the Outer Heliosphere: Observational Constraints and Transport Simulations [0]
   Wang, Weining, He, Jiansen, Duan, Die, Yang, Zhongwei, Wang, Linghua & Li, Hui, ApJ, 988, L66
3. A Quantification Method for Plasma Exchange Across the Planetary Magnetopause Layer [1]
   Yang, Zhongwei, Huang, Can, Jarvinen, Riku, Guo, Xiaocheng & Wang, Chi, Research Notes of the American Astronomical Society, 9, 177
4. Unveiling the Mixing and Transport Processes of Solar Wind and Planetary Ions in the Magnetopause Boundary Layer [0]
   Yang, Zhongwei, Huang, Can, Guo, Xiaocheng, Jarvinen, Riku, Tang, Binbin, Jiang, Wence, Li, Hui & Wang, Chi, ApJ, 994, 88

2024

1. Electron Shock Drift Acceleration at a Low-Mach-number, Low-plasma-beta Quasi-perpendicular Shock [2]
   Guo, Ao, Lu, Quanming, Lu, San, Yang, Zhongwei & Gao, Xinliang, ApJ, 974, 57
2. Pickup Ion Modulation on Plateau-like Turbulence in the Martian Magnetosheath [5]
   Li, Hui, Jiang, Wence, Yang, Zhongwei, Liu, Xiaodong, Verscharen, Daniel & Wang, Chi, ApJ, 967, 76
3. Upstream Plasma Waves and Downstream Magnetic Reconnection at a Reforming Quasi-parallel Shock [8]
   Lu, Quanming, Guo, Ao, Yang, Zhongwei, Wang, Rongsheng, Lu, San, Chen, Rui & Gao, Xinliang, ApJ, 964, 33

2023

1. Agyrotropic Electron Distributions in the Terrestrial Foreshock Transients [1]
   Gao, C.-H., Tang, B.-B., Guo, X.-C., Li, W. Y., Khotyaintsev, Y. V., Graham, D. B., Turner, D. L., Yang, Z. W. & Wang, C., Geophysical Research Letters, 50, e2022GL102235
2. Particle Energization at a High Mach Number Perpendicular Shock: 1D Particle-in-cell Simulations [3]
   Hao, Yufei, Yang, Zhongwei, Guo, Fan, Liu, Terry Z., Kong, Xiangliang, Shan, Lican & Wu, Dejin, ApJ, 954, 18
3. Particle-in-cell simulations of collisionless perpendicular shocks driven at a laser-plasma device [0]
   Hao, Yufei, Yang, Zhongwei, Tang, Huibo, Kong, Xiangliang & Shan, Lican, AIP Advances, 13, 065302
4. Kelvin-Helmholtz Instability at Mars: In Situ Observations and Kinetic Simulations [9]
   Wang, Lei, Huang, Can, Du, Aimin, Ge, Yasong, Chen, Guo, Yang, Zhongwei, Li, Songyan & Zhang, Kuixiang, ApJ, 947, 51
5. Formation of electron beam-like components in low-Mach-number quasi-perpendicular shock: Particle-in-cell simulation [0]
   Yu, Chunkai, Zheng, Jian, Lu, Quanming, Yang, Zhongwei & Gao, Xinliang, AIP Advances, 13, 095115

2022

1. Properties of a Supercritical Quasi-perpendicular Interplanetary Shock Propagating in the Terrestrial Foreshock Region [3]
   Liu, Mingzhe, Yang, Zhongwei, Liu, Ying D., Lembége, Bertrand, Issautier, Karine, Wilson, L. B., Zhao, Siqi, Jagarlamudi, Vamsee Krishna, Zhao, Xiaowei, Huang, Jia & Chrysaphi, Nicolina, ApJS, 263, 11
2. Electron Acceleration by Moderate-Mach-number Low-β Shocks: Particle-in-Cell Simulations [1]
   Yu, Chunkai, Yang, Zhongwei, Gao, Xinliang, Lu, Quanming & Zheng, Jian, ApJ, 930, 155

2021

1. Two-dimensional Particle-in-cell Simulation of Magnetic Reconnection in the Downstream of a Quasi-perpendicular Shock [22]
   Lu, Quanming, Yang, Zhongwei, Wang, Huanyu, Wang, Rongsheng, Huang, Kai, Lu, San & Wang, Shui, ApJ, 919, 28
2. Nonlinear Wave-Wave Coupling Related to Whistler-mode and Electron Bernstein Waves Observed by the Parker Solar Probe [8]
   Ma, Jiuqi, Gao, Xinliang, Yang, Zhongwei, Tsurutani, Bruce T., Liu, Mingzhe, Lu, Quanming & Wang, Shui, ApJ, 918, 26

2020

1. Energy Power Spectra Measured at an Interplanetary Shock by the New Horizon's SWAP Experiment: 1D Full Particle Simulations versus Observations [10]
   Lembége, Bertrand, Yang, Zhongwei & Zank, Gary P., ApJ, 890, 48
2. MMS Direct Observations of Kinetic-scale Shock Self-reformation [15]
   Yang, Zhongwei, Liu, Ying D., Johlander, Andreas, Parks, George K., Lavraud, Benoit, Lee, Ensang, Baumjohann, Wolfgang, Wang, Rui & Burch, James L., ApJ, 901, L6
3. PIC Simulations of Microinstabilities and Waves at Near-Sun Solar Wind Perpendicular Shocks: Predictions for Parker Solar Probe and Solar Orbiter [10]
   Yang, Zhongwei, Liu, Ying D., Matsukiyo, Shuichi, Lu, Quanming, Guo, Fan, Liu, Mingzhe, Xie, Huasheng, Gao, Xinliang & Guo, Jun, ApJ, 900, L24

2019

1. Effects of Coronal Density and Magnetic Field Distributions on a Global Solar EUV Wave [24]
   Hu, Huidong, Liu, Ying D., Zhu, Bei, Peter, Hardi, He, Wen, Wang, Rui & Yang, Zhongwei, ApJ, 878, 106

2018

1. Physical Roles of Interstellar-origin Pickup Ions at Heliospheric Termination Shock. II. Impact of the Front Nonstationary on the Energy Partition and Particle Velocity Distribution [11]
   Lembège, Bertrand & Yang, Zhongwei, ApJ, 860, 84
2. Kinetic Properties of an Interplanetary Shock Propagating inside a Coronal Mass Ejection [10]
   Liu, Mingzhe, Liu, Ying D., Yang, Zhongwei, Wilson, L. B., III & Hu, Huidong, ApJ, 859, L4
3. Impact of Shock Front Rippling and Self-reformation on the Electron Dynamics at Low-Mach-number Shocks [17]
   Yang, Zhongwei, Lu, Quanming, Liu, Ying D. & Wang, Rui, ApJ, 857, 36

2016

1. Physical Roles of Interstellar-origin Pickup Ions at the Heliospheric Termination Shock: Impact on the Shock Front Microstructures and Nonstationarity [11]
   Lembège, Bertrand & Yang, Zhongwei, ApJ, 827, 73
2. Transport of Solar Wind H⁺ and He⁺⁺ Ions across Earth’s Bow Shock [5]
   Parks, G. K., Lee, E., Fu, S. Y., Kim, H. E., Ma, Y. Q., Yang, Z. W., Liu, Y., Lin, N., Hong, J., Canu, P., Dandouras, I., Rème, H. & Goldstein, M. L., ApJ, 825, L27
3. Sympathetic Solar Filament Eruptions [39]
   Wang, Rui, Liu, Ying D., Zimovets, Ivan, Hu, Huidong, Dai, Xinghua & Yang, Zhongwei, ApJ, 827, L12
4. Global Explicit Particle-in-cell Simulations of the Nonstationary Bow Shock and Magnetosphere [12]
   Yang, Zhongwei, Huang, Can, Liu, Ying D., Parks, George K., Wang, Rui, Lu, Quanming & Hu, Huidong, ApJS, 225, 13

2015

1. Plasma and Magnetic Field Characteristics of Solar Coronal Mass Ejections in Relation to Geomagnetic Storm Intensity and Variability [86]
   Liu, Ying D., Hu, Huidong, Wang, Rui, Yang, Zhongwei, Zhu, Bei, Liu, Yi A., Luhmann, Janet G. & Richardson, John D., ApJ, 809, L34
2. The Role of Active Region Coronal Magnetic Field in Determining Coronal Mass Ejection Propagation Direction [47]
   Wang, Rui, Liu, Ying D., Dai, Xinghua, Yang, Zhongwei, Huang, Chong & Hu, Huidong, ApJ, 814, 80
3. 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 [33]
   Yang, Zhongwei, Liu, Ying D., Richardson, John D., Lu, Quanming, Huang, Can & Wang, Rui, ApJ, 809, 28

2014

1. 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 [59]
   Liu, Ying D., Yang, Zhongwei, Wang, Rui, Luhmann, Janet G., Richardson, John D. & Lugaz, Noé, ApJ, 793, L41
2. Full Particle Electromagnetic Simulations of Entropy Generation across a Collisionless Shock [6]
   Yang, Zhongwei, Liu, Ying D., Parks, George K., Wu, Pin, Huang, Can, Shi, Run, Wang, Rui & Hu, Huidong, ApJ, 793, L11