Publications of Hengqiang Feng

A list of publications authored or co-authored by Hengqiang 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: 0000-0003-2632-8066

List of publications ordered by citations
Number of papers: 72 (refereed: 71)
No. of citations: 796
First author papers: 24 (refereed: 24)

2026

  1. On High-frequency Kinetic Alfvén Waves in Space and Solar Plasma [0]
    Xiang, L., Wu, D. J., Chen, L., Li, Q. H., Zhao, G. Q. & Feng, H. Q., ApJ, 999, 80

2025

  1. The Error Estimation of Transverse Coronal Loop Oscillation Parameters Based on Least Chi-squares Fitting [0]
    Li, Hongbo, Feng, Hengqiang, Tian, Zhanjun, Cai, Qiangwei, Zhao, Guoqing & Zhao, Yan, ApJS, 277, 23

2024

  1. Proton Temperature Anisotropy Constraint Associated With Alpha Beam Instability in the Solar Wind [1]
    Xiang, L., Lee, K. H., Lee, L. C., Wu, D. J., Chen, L., Feng, H. Q., Li, Q. H. & Zhao, G. Q., Journal of Geophysical Research (Space Physics), 129, e2023JA032398
  2. Triggered Emissions of Kinetic Alfvén Waves and Parallel Ion Cyclotron Waves by Ion Beam Mode in the Solar Wind [1]
    Xiang, L., Lee, K. H., Lee, L. C., Wu, D. J., Chen, L., Feng, H. Q., Zhao, G. Q. & Tsai, T. C., ApJ, 976, 184
  3. The Opposite Behaviors of Proton and Electron Temperatures in Relation to Solar Wind Magnetic Energy: Parker Solar Probe Observations [1]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Xiang, L., Yang, H. F., Liu, Q. & Ren, D. Y., ApJ, 966, 2

2023

  1. Instabilities Driven by Proton Temperature Anisotropy in the Presence of Alpha Particles: Implications for Proton-temperature-anisotropy Constraint in the Solar Wind [3]
    Xiang, L., Wu, D. J., Chen, L., Li, Q. H., Zhao, G. Q., Feng, H. Q. & Yu, H. W., ApJ, 954, 42

2022

  1. Variations of the Plasma Environment Revealed by the Evolution of the Supra-arcade Fan in the 2017 September 10 Flare [7]
    Cai, Qiangwei, Ye, Jing, Feng, Hengqiang & Zhao, Guoqing, ApJ, 929, 99
  2. Mode Conversion of Kinetic Alfvén Waves in the Presence of Proton Beams and Its Role in Plasma Heating in the Solar Corona [5]
    Xiang, L., Chen, L., Wu, D. J., Li, Q. H., Zhao, G. Q., Feng, H. Q. & Yu, H. W., ApJ, 936, 159
  3. The Radial Evolution of Magnetic Clouds From Helios to Ulysses [2]
    Zhao, Ake, Wang, Yuming, Feng, Hengqiang, Cheng, Long, Li, Xiaolei, Cai, Qiangwei, Li, Hongbo & Zhao, Guoqing, ApJ, 931, 55
  4. Cross-scale Correlations in Imbalanced Solar Wind Turbulence: Parker Solar Probe Observations [7]
    Zhao, G. Q., Meyrand, R., Feng, H. Q., Wu, D. J. & Kasper, J. C., ApJ, 938, 124
  5. Two Correlations with Enhancement Near the Proton Gyroradius Scale in Solar Wind Turbulence: Parker Solar Probe (PSP) and Wind Observations [8]
    Zhao, G. Q., Lin, Y., Wang, X. Y., Feng, H. Q., Wu, D. J. & Kasper, J. C., ApJ, 924, 92
  6. On Mechanisms of Proton Perpendicular Heating in the Solar Wind: Test Results Based on Wind Observations [4]
    Zhao, Guo-Qing, Feng, Heng-Qiang, Wu, De-Jin, Liu, Qiang, Zhao, Yan & Tian, Zhan-Jun, Research in Astronomy and Astrophysics, 22, 015009
  7. Direct Measurement of AIA 171 Coronal Loop Transparency [0]
    li, Hongbo, Feng, Hengqiang, Tian, Zhanjun, Zhang, Xuefei, Liu, Jihong, Zhao, Guoqing, Zhao, Yan, Cai, Hao, Liang, Yuanxi & Guo, Runze, ApJ, 934, 135

2021

  1. Dynamical and Thermal Manifestations of the Region above the Top of the Post-flare Loops: MHD Simulations [6]
    Cai, Qiangwei, Feng, Hengqiang, Ye, Jing & Shen, Chengcai, ApJ, 912, 79
  2. Magnetic Helicity Signature and Its Role in Regulating Magnetic Energy Spectra and Proton Temperatures in the Solar Wind [18]
    Zhao, G. Q., Lin, Y., Wang, X. Y., Feng, H. Q., Wu, D. J., Li, H. B., Zhao, A. & Liu, Q., ApJ, 906, 123
  3. The Flux of Flux Ropes Embedded Within Magnetic Clouds Near 5 AU [3]
    Zhao, Yan, Feng, Hengqiang, Liu, Qiang, Zhao, Ake, Zhao, Guoqing & Tian, Zhanjun, Journal of Geophysical Research (Space Physics), 126, e28594
  4. On the Frequency Drift of Coronal Loop's Fast Kink Oscillation: Effects of Quasi-static Evolution in Loop Density [2]
    li, Hongbo, Feng, Hengqiang, Shen, Yuandeng, Tian, Zhanjun, Zhao, Guoqing, Zhao, Ake & Zhao, Yan, ApJ, 922, 224

2020

  1. Small interplanetary magnetic flux rope [9]
    Feng, HengQiang, Zhao, GuoQing & Wang, JieMin, Science in China E: Technological Sciences, 63, 183
  2. A Statistical Study of the Plasma and Composition Distribution inside Magnetic Clouds: 1998-2011 [12]
    Huang, Jin, Liu, Yu, Feng, Hengqiang, Zhao, Ake, Abidin, Z. Z., Shen, Yuandeng & Jacob, Oloketuyi, ApJ, 893, 136
  3. On the Fast Propagating Ultra-hot Disturbance Captured by SDO/AIA: An In-depth Insight into the Coronal Nonlinear Dynamics [4]
    Li, Hongbo, Feng, Hengqiang, Liu, Yu, Shen, Yuandeng, Tian, Zhanjun, Zhao, Guoqing & Zhao, Ake, ApJ, 898, L8
  4. Observational Evidence for Solar Wind Proton Heating by Ion-Scale Turbulence [19]
    Zhao, G. Q., Lin, Y., Wang, X. Y., Wu, D. J., Feng, H. Q., Liu, Q., Zhao, A. & Li, H. B., Geophysical Research Letters, 47, e89720
  5. Dependence of Ion Temperatures on Alpha-Proton Differential Flow Vector and Heating Mechanisms in the Solar Wind [15]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Huang, J., Zhao, Y., Liu, Q. & Tian, Z. J., ApJ, 889, L14

2019

  1. Observations on a Series of Merging Magnetic Flux Ropes Within an Interplanetary Coronal Mass Ejection [11]
    Feng, Hengqiang, Zhao, Yan, Zhao, Guoqing, Liu, Qiang & Wu, Dejin, Geophysical Research Letters, 46, 5
  2. A Longitudinally Asymmetrical Kink Oscillation of Coronal Loop Caused by a Diagonally Placed Flare below the Loop System [4]
    Li, Hongbo, Feng, Hengqiang, Liu, Yu, Tian, Zhanjun, Huang, Jin & Miao, Yuhu, ApJ, 881, 111
  3. Possible Cool Prominence Materials Detected within Interplanetary Small Magnetic Flux Ropes [5]
    Wang, J. M., Feng, H. Q., Li, H. B., Zhao, A. K., Tian, Z. J., Zhao, G. Q., Zhao, Y. & Liu, Q., ApJ, 876, 57
  4. Comparison of counterstreaming suprathermal electron signatures of ICMEs with and without magnetic cloud: are all ICMEs flux ropes? [9]
    Wang, Jiemin, Zhao, Yan, Feng, Hengqiang, Liu, Qiang, Tian, Zhanjun, Li, Hongbo, Zhao, Ake & Zhao, Guoqing, A&A, 632, A129
  5. The Relationship of Magnetic Twist and Plasma Motion in a Magnetic Cloud [1]
    Zhao, Ake, Wang, Yuming, Feng, Hengqiang, Zhuang, Bin, Li, Xiaolei, Li, Hongbo & Jia, Hong, ApJ, 885, 122
  6. Effects of Alpha-Proton Differential Flow on Proton Temperature Anisotropy Instabilities in the Solar Wind: Wind Observations [18]
    Zhao, G. Q., Li, H., Feng, H. Q., Wu, D. J., Li, H. B. & Zhao, A., ApJ, 884, 60
  7. On the Generation Mechanism of Electromagnetic Cyclotron Waves in the Solar Wind: Statistical Results from Wind Observations [36]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Pi, G. & Huang, J., ApJ, 871, 175

2018

  1. Observations on the Magnetic Disconnections of a Magnetic Cloud from the Sun through Magnetic Reconnection [6]
    Feng, H. Q., Wang, J. M., Zhao, G. Q. & Zhao, Y., ApJ, 864, 101
  2. Understanding Magnetic Cloud Structure From Shock/Discontinuity Analysis [1]
    Lin, P. H., Yang, Y. H., Chao, J. K., Feng, H. Q. & Liu, J. Y., Journal of Geophysical Research (Space Physics), 123, 6130
  3. Observations of a Small Interplanetary Magnetic Flux Rope Opening by Interchange Reconnection [8]
    Wang, J. M., Feng, H. Q. & Zhao, G. Q., ApJ, 853, 94
  4. Cold prominence materials detected within magnetic clouds during 1998-2007 [16]
    Wang, Jiemin, Feng, Hengqiang & Zhao, Guoqing, A&A, 616, A41
  5. The Twist Profile in the Cross Section of Interplanetary Magnetic Clouds [7]
    Zhao, Ake, Wang, Yuming, Feng, Hengqiang, Xu, Mengjiao, Zhao, Yan, Zhao, Guoqing & Hu, Qiang, ApJ, 869, L13
  6. Statistical Study of Low-Frequency Electromagnetic Cyclotron Waves in the Solar Wind at 1 AU [25]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Liu, Q., Zhao, Y., Zhao, A. & Huang, J., Journal of Geophysical Research (Space Physics), 123, 1715
  7. Polarization properties of low frequency electromagnetic cyclotron waves associated with magnetic clouds [0]
    Zhao, G. Q., Feng, H. Q., Wu, D. J. & Huang, J., Astrophysics and Space Science, 363, 49

2017

  1. Observation of Two Slow Shocks Associated with Magnetic Reconnection Exhausts in the Interplanetary Space [5]
    Feng, HengQiang, Li, QiuHuan, Wang, JieMin & Zhao, GuoQing, Solar Physics, 292, 53
  2. The radiation mechanism of fast radio bursts [1]
    Song, Qiwu, Huang, Yu, Feng, Hengqiang, Yang, Lei, Zhou, Tuanhui, Luo, Qingyu, Song, Tengfei, Zhang, Xuefei, Liu, Yu & Huang, Guangli, arXiv:1707.08979
  3. Low-frequency electromagnetic cyclotron waves in and around magnetic clouds: STEREO observations during 2007-2013 [14]
    Zhao, G. Q., Chu, Y. H., Lin, P. H., Yang, Y. H., Feng, H. Q., Wu, D. J. & Liu, Q., Journal of Geophysical Research (Space Physics), 122, 4879
  4. Time-dependent Occurrence Rate of Electromagnetic Cyclotron Waves in the Solar Wind: Evidence for the Effect of Alpha Particles? [13]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Chu, Y. H. & Huang, J., ApJ, 847, L8
  5. Correlation between Angular Widths of CMEs and Characteristics of Their Source Regions [17]
    Zhao, X. H., Feng, X. S., Feng, H. Q. & Li, Z., ApJ, 849, 79

2016

  1. Genesis of Interplanetary Intermittent Turbulence: A Case Study of Rope&enrope Magnetic Reconnection [17]
    Chian, Abraham C.-L., Feng, Heng Q., Hu, Qiang, Loew, Murray H., Miranda, Rodrigo A., Muñoz, Pablo R., Sibeck, David G. & Wu, De J., ApJ, 832, 179
  2. Observations of an Interplanetary Intermediate Shock Associated with a Magnetic Reconnection Exhaust [2]
    Feng, H. Q., Li, Q. H., Wang, J. M. & Zhao, G. Q., ApJ, 826, 15
  3. Observational connection between local high-temperature phenomena within magnetic clouds and the Sun [4]
    Wang, JieMin & Feng, HengQiang, Science China Earth Sciences, 59, 1051
  4. Nature of turbulence, dissipation, and heating in space plasmas: From Alfvén waves to kinetic Alfvén waves [7]
    Wu, D. J., Feng, H. Q., Li, B. & He, J. S., Journal of Geophysical Research (Space Physics), 121, 7349
  5. The effect of electron holes on cyclotron maser emission driven by horseshoe distributions [4]
    Zhao, G. Q., Chu, Y. H., Feng, H. Q. & Wu, D. J., Physics of Plasmas, 23, 114505
  6. The effect of electron beams on cyclotron maser emission excited by lower-energy cutoffs [6]
    Zhao, G. Q., Feng, H. Q. & Wu, D. J., Physics of Plasmas, 23, 052109
  7. Cyclotron Maser Emission from Power-law Electrons with Strong Pitch-angle Anisotropy [14]
    Zhao, G. Q., Feng, H. Q., Wu, D. J., Chen, L., Tang, J. F. & Liu, Q., ApJ, 822, 58

2015

  1. Counterstreaming electrons in small interplanetary magnetic flux ropes [28]
    Feng, H. Q., Zhao, G. Q. & Wang, J. M., Journal of Geophysical Research (Space Physics), 120, 10,175
  2. Observations of Several Unusual Plasma Compositional Signatures within Small Interplanetary Magnetic Flux Ropes [17]
    Feng, H. Q. & Wang, J. M., ApJ, 809, 112
  3. The critical intensity of Alfvén waves for electron-cyclotron maser to favor the O-mode emission [4]
    Zhao, G. Q., Feng, H. Q. & Wu, D. J., Physics of Plasmas, 22, 102105

2014

  1. Magnetic reconnection as a possible heating mechanism of the local high temperature protons within magnetic clouds [8]
    Feng, HengQiang & Wang, JieMin, Science China Earth Sciences, 57, 1979

2013

  1. Magnetic-reconnection exhausts in the sheath of magnetic clouds [26]
    Feng, Hengqiang & Wang, Jiemin, A&A, 559, A92

2012

  1. The evidence for the evolution of interplanetary small flux ropes: Boundary layers [11]
    Feng, HengQiang, Wang, JieMin & Wu, DeJin, Chinese Science Bulletin, 57, 1415

2011

  1. Magnetic reconnection exhausts at the boundaries of small interplanetary magnetic flux ropes [23]
    Feng, H. Q., Wu, D. J., Wang, J. M. & Chao, J. W., A&A, 527, A67

2010

  1. Comment on “Comparison of small-scale flux rope magnetic properties to large-scale magnetic clouds: Evidence for reconnection across the HCS”? by M. L. Cartwright and M. B. Moldwin [8]
    Feng, H. Q., Wu, D. J. & Chao, J. K., Journal of Geophysical Research (Space Physics), 115, A10109
  2. The relationship between small interplanetary magnetic flux rope and the substorm expansion phase [12]
    Feng, H. Q., Chao, J. K., Lyu, L. H. & Lee, L. C., Journal of Geophysical Research (Space Physics), 115, A09108
  3. Are all leading shocks driven by magnetic clouds? [11]
    Feng, H. Q., Wu, D. J., Chao, J. K., Lee, L. C. & Lyu, L. H., Journal of Geophysical Research (Space Physics), 115, A04107

2009

  1. Observations of an interplanetary switch-on shock driven by a magnetic cloud [2]
    Feng, H. Q., Lin, C. C., Chao, J. K., Wu, D. J., Lyu, L. H. & Lee, L. C., Geophysical Research Letters, 36, L07106
  2. Observations of a Small Interplanetary Magnetic Flux Rope Associated with a Magnetic Reconnection Exhaust [28]
    Feng, H. Q. & Wu, D. J., ApJ, 705, 1385
  3. Observations of a subcritical switch-on shock [5]
    Feng, H. Q., Wang, J. M. & Chao, J. K., A&A, 503, 203
  4. Two-spacecraft observations of an interplanetary slow shock [6]
    Lin, C. C., Feng, H. Q., Wu, D. J., Chao, J. K., Lee, L. C. & Lyu, L. H., Journal of Geophysical Research (Space Physics), 114, A03105
  5. Evidence of Chromospheric Evaporation in the 2004 December 1 Solar Flare [33]
    Ning, Zongjun, Cao, Wenda, Huang, Jing, Huang, Guangli, Yan, Yihua & Feng, Hengqiang, ApJ, 699, 15

2008

  1. Interplanetary small- and intermediate-sized magnetic flux ropes during 1995-2005 [68]
    Feng, H. Q., Wu, D. J., Lin, C. C., Chao, J. K., Lee, L. C. & Lyu, L. H., Journal of Geophysical Research (Space Physics), 113, A12105
  2. Observations of a switch-off shock in interplanetary space [6]
    Feng, H. Q., Lin, C. C., Chao, J. K., Wu, D. J., Lyu, L. H. & Lee, L. C., Journal of Geophysical Research (Space Physics), 113, A05216
  3. Observations of a 2→3 Type Interplanetary Intermediate Shock [13]
    Feng, Hengqiang & Wang, J. M., Solar Physics, 247, 195
  4. A Shock Fitting Procedure Based on Monte Carlo Calculations: Application to Slow Shocks [5]
    Lin, C. C., Feng, H. Q., Chao, J. K., Lee, L. C., Lyu, L. H. & Wu, D. J., Journal of Geophysical Research (Space Physics), 113, A01101
  5. Energy spectrum of interplanetary magnetic flux ropes and its connection with solar activity [10]
    Wu, D. J., Feng, H. Q. & Chao, J. K., A&A, 480, L9

2007

  1. From Rankine-Hugoniot relation fitting procedure: Tangential discontinuity or intermediate/slow shock? [8]
    Feng, H. Q., Lin, C. C., Chao, J. K., Wu, D. J., Lyu, L. H. & Lee, L.-C., Journal of Geophysical Research (Space Physics), 112, A10104
  2. Size and energy distributions of interplanetary magnetic flux ropes [75]
    Feng, H. Q., Wu, D. J. & Chao, J. K., Journal of Geophysical Research (Space Physics), 112, A02102
  3. Discussion on the Identification of Magnetic Cloud Boundaries Using Cloud Natural Coordinate System [0]
    Feng, Heng-qiang, Wu, De-jin & Zhao, Ji-kun, Chinese Astronomy and Astrophysics, 31, 146

2006

  1. Identification of configuration and boundaries of interplanetary magnetic clouds [11]
    Feng, H. Q., Wu, D. J. & Chao, J. K., Journal of Geophysical Research (Space Physics), 111, A07S90

Created on Wed Apr 8 04:28:11 2026.