Publications of Honghong Wu

A list of publications authored or co-authored by Honghong Wu, 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: 0000-0003-0424-9228

List of publications ordered by citations
Number of papers: 33 (refereed: 33)
No. of citations: 253
First author papers: 19 (refereed: 19)

2026

  1. Distinct Source Regions for Slow Solar Wind Populations Differentiated by Residual Energy during Parker Solar Probe Encounter 7 [0]
    Sun, Zhenxuan, Wu, Honghong, Huang, Shiyong, He, Jiansen, Tian, Hui, Yang, Liping, Badman, Samuel T., Yuan, Zhigang, Chen, Yajie & Hou, Chuanpeng, ApJ, 997, 191
  2. Turbulence energy transfer in the Earth's magnetotail bursty bulk flows [0]
    Zhang, J., Huang, S. Y., Yuan, Z. G., Wu, H. H., Jiang, K., Xu, S. B., Wang, Z., Xiong, Q. Y., Tang, Y. T. & Bai, H., Physics of Plasmas, 33, 012903

2025

  1. Characteristics of Inertial Range Turbulent Cascade Rates in the Interplanetary Coronal Mass Ejection [2]
    Bai, H., Huang, S. Y., Zhang, J., Yuan, Z. G., Wu, H. H., Jiang, K., Wang, Z., Xiong, Q. Y., Lin, R. T. & Tang, Y. T., ApJ, 985, 67
  2. Backmapping of the High- and Low-latitude Solar Wind under Multiple Heliospheric and Coronal Magnetic Field Configurations [2]
    Ma, Xinyi, Yang, Liping, Feng, Xueshang, Tian, Hui, Wu, Honghong, Shen, Fang, Zhang, Wangning, Ma, Mengxuan, Zhang, Xiao & Wang, Ziwei, ApJ, 994, 160
  3. A new scenario with two subranges in the inertial regime of solar wind turbulence [14]
    Wu, Honghong, Huang, Shiyong, He, Jiansen, Yang, Liping, Sorriso-Valvo, Luca, Wang, Xin & Yuan, Zhigang, A&A, 697, A187
  4. Spectral Features of the Energy-containing Range and the Inertial Range in Fast Solar Wind Turbulence [1]
    Wu, Honghong, Huang, Shiyong, Yang, Liping, He, Jiansen & Yuan, Zhigang, ApJ, 984, 167
  5. Applications of multi-GPU computing in large-scale fully kinetic particle-in-cell simulations of space plasma [1]
    Xiong, Q. Y., Huang, S. Y., Yuan, Z. G., Kuang, L. L., Sharma, B., Jiang, K., Wu, H. H. & Yu, L., AIP Advances, 15, 025201
  6. Transport of Mirror Mode Structures through Saturn's Magnetopause Reconnection [1]
    Xu, S. B., Huang, S. Y., Yuan, Z. G., Jiang, K., Wu, H. H., Zhang, J., Wang, Z., Xiong, Q. Y. & Lin, R. T., ApJ, 992, 166
  7. Natural Generation of Alfvén Waves from Three-dimensional Bursty Interchange Magnetic Reconnection in the Solar Corona [8]
    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
  8. Kinetic-scale Mirror Mode Storm Embedded in a Flux Rope in the Solar Wind [2]
    Yu, L., Huang, S. Y., Yuan, Z. G., Jiang, K., Wu, H. H., Xiong, Q. Y., Lin, R. T., Wang, Z., Tang, Y. T. & Bai, H., ApJ, 984, 133

2024

  1. MMS Observations of Electron Vorticity in the Earth's Magnetosheath [0]
    Li, Yijun, Yuan, Zhigang, Huang, Shiyong, Jiang, Kui & Wu, Honghong, ApJ, 971, 128
  2. Distribution and Anisotropy of the Energy Transfer Rate in the Solar Wind Turbulence [0]
    Wu, Honghong, Huang, Shiyong, Wang, Xin, Yang, Liping & Yuan, Zhigang, ApJ, 977, 94
  3. Radial Spectral Evolution of the Elsässer Variable z in the Slow Solar Wind [4]
    Wu, Honghong, Huang, Shiyong, He, Jiansen, Yang, Liping & Yuan, Zhigang, ApJ, 966, 144

2023

  1. Effect of intermittent structures on the spectral index<?xmltex \hack{ }?> of the magnetic field in the slow solar wind [5]
    Wang, Xin, Fan, Xuanhao, Wang, Yuxin, Wu, Honghong & Zhang, Lei, Annales Geophysicae, 41, 129
  2. Energy transfer of the solar wind turbulence based on Parker solar probe and other spacecraft observations [14]
    Wu, Honghong, Tu, Chuanyi, He, Jiansen, Wang, Xin & Yang, Liping, Physics of Plasmas, 30, 020501
  3. Influence of Intermittency on the Energy Transfer Rate of Solar Wind Turbulence [8]
    Wu, Honghong, Huang, Shiyong, Wang, Xin, Yang, Liping & Yuan, Zhigang, ApJ, 958, L28
  4. Intermittency of Magnetic Discontinuities in the Near-Sun Solar Wind Turbulence [14]
    Wu, Honghong, Huang, Shiyong, Wang, Xin, Yuan, Zhigang, He, Jiansen & Yang, Liping, ApJ, 947, L22
  5. Scaling Anisotropy with Stationary Background Field in Near-Sun Solar Wind Turbulence [4]
    Wu, Honghong, He, Jiansen, Huang, Shiyong, Yang, Liping, Wang, Xin & Yuan, Zhigang, ApJ, 947, 45
  6. Observations of Kolmogorov Turbulence in Saturn's Magnetosphere [4]
    Xu, S. B., Huang, S. Y., Sahraoui, F., Yuan, Z. G., Wu, H. H., Jiang, K., Zhang, J. & Lin, R. T., Geophysical Research Letters, 50, e2023GL105463
  7. Effect of Intermittent Structures on Electron Heating in Saturn's Magnetosphere: Cassini Observations [2]
    Xu, S. B., Huang, S. Y., Yuan, Z. G., Wu, H. H., Jiang, K. & Zhang, J., Geophysical Research Letters, 50, e2023GL104656

2022

  1. The Yaglom Scaling of the Third-order Structure Functions in the Inner Heliosphere Observed by Helios 1 and 2 [16]
    Wu, Honghong, Tu, Chuanyi, He, Jiansen, Wang, Xin & Yang, Liping, ApJ, 927, 113
  2. Consistency of von Karman Decay Rate with the Energy Supply Rate and Heating Rate Observed by Parker Solar Probe [12]
    Wu, Honghong, Tu, Chuanyi, He, Jiansen, Wang, Xin & Yang, Liping, ApJ, 926, 116

2021

  1. Magnetic and Velocity Fluctuations in the Near-Sun Region from 0.1-0.3 au Observed by Parker Solar Probe [7]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin & Yang, Liping, ApJ, 922, 92
  2. Energy Supply by Low-frequency Break Sweeping for Heating the Fast Solar Wind from 0.3 to 4.8 au [16]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen, Yang, Liping & Yao, Shuo, ApJ, 912, 84
  3. Large Amplitude Switchback Turbulence: Possible Magnetic Velocity Alignment Structures [16]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin & Yang, Liping, ApJ, 911, 73
  4. 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

2020

  1. Magnetic Energy Transfer and Distribution between Protons and Electrons for Alfvénic Waves at Kinetic Scales in Wavenumber Space [9]
    Duan, Die, He, Jiansen, Wu, Honghong & Verscharen, Daniel, ApJ, 896, 47
  2. Energy Supply for Heating the Slow Solar Wind Observed by Parker Solar Probe between 0.17 and 0.7 au [27]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen & Yang, Liping, ApJ, 904, L8
  3. Isotropic Scaling Features Measured Locally in the Solar Wind Turbulence with Stationary Background Field [20]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen, Yang, Liping & Wang, Linghua, ApJ, 892, 138

2019

  1. Dependence of 3D Self-correlation Level Contours on the Scales in the Inertial Range of Solar Wind Turbulence [8]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen & Wang, Linghua, ApJ, 883, L9
  2. 3D Feature of Self-correlation Level Contours at 1010 cm Scale in Solar Wind Turbulence [6]
    Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen & Wang, Linghua, ApJ, 882, 21
  3. The Fluid-like and Kinetic Behavior of Kinetic Alfvén Turbulence in Space Plasma [22]
    Wu, Honghong, Verscharen, Daniel, Wicks, Robert T., Chen, Christopher H. K., He, Jiansen & Nicolaou, Georgios, ApJ, 870, 106

2017

  1. A Study on Sunward Propagating Alfvénic Fluctuations With a Power Law Spectrum Observed by the Wind Spacecraft [3]
    Wu, Honghong, Wang, Xin, Tu, Chuanyi, Wang, Linghua, He, Jiansen & Tian, Hui, Journal of Geophysical Research (Space Physics), 122, 9768

Created on Wed Apr 22 04:31:07 2026.