Publications of Leping Li

A list of publications authored or co-authored by Leping Li, 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: 0000-0001-5776-056X

List of publications ordered by citations
Number of papers: 76 (refereed: 75)
No. of citations: 1450
First author papers: 26 (refereed: 25)

2026

  1. Interaction of Four Homologous Coronal Mass Ejections near the Sun [0]
    Song, Hongqiang, Wang, Rui, Li, Leping, Shen, Fang, Wang, Bing, He, Ziqian, Xia, Lidong & Chen, Yao, ApJ, 997, 344

2025

  1. Quasiperiodic Fast-propagating Waves Driven by the Tuning-fork Effect during Magnetic Reconnection [0]
    Hu, Jialiang, Zhao, Xiaozhou, Zhou, Guiping, Chen, Yuhao, Jin, Chunlan, Li, Leping, Shi, Mijie, Cheng, Guanchong, Yu, Xiaoxia, Ye, Jing & Zhou, Xinping, ApJ, 994, 6
  2. Failure of a Solar Filament Eruption Caused by Magnetic Reconnection with Overlying Coronal Loops [5]
    Li, Leping, Song, Hongqiang, Hou, Yijun, Zhou, Guiping, Tan, Baolin, Ji, Kaifan, Xiang, Yongyuan, Hou, Zhenyong, Guo, Yang, Qiu, Ye, Su, Yingna, Ji, Haisheng, Zhang, Qingmin & Ou, Yudi, ApJ, 979, 113
  3. Two Events with Spectacular Moving Structures in a Failed Solar Filament Eruption [1]
    Ou, Yudi, Su, Yingna, Zhang, Qingmin, Ji, Haisheng, Li, Leping, Song, Hongqiang, Hou, Yijun, Zhou, Guiping, Tan, Baolin, Ji, Kaifan, Xu, Zhe, Xiang, Yongyuan, Hou, Zhenyong, Guo, Yang & Qiu, Ye, ApJ, 988, 14
  4. On the Nature of the Bright Front of Solar Coronal Mass Ejections [2]
    Song, Hongqiang, Wang, Rui, Li, Leping, Wang, Bing & Chen, Yao, ApJ, 988, 270
  5. On the Nature of the Dark Cavity of Solar Coronal Mass Ejections [5]
    Song, Hongqiang, Li, Leping, Wang, Bing, Xia, Lidong & Chen, Yao, ApJ, 978, 40
  6. Sympathetic Eruption of Two Filaments and Associated Solar Coronal Jet [2]
    Yang, Jiayan, Li, Leping, Chen, Huadong, Bi, Yi, Yang, Bo, Hong, Junchao & Dong, Yan, ApJ, 995, 1
  7. Responses of a Coronal Hole to a Fast Flare-driven Coronal Wave [2]
    Zhang, Xiaofan, Chen, Huadong, Zhou, Guiping, Feng, Li, Su, Yang, Guo, Jinhan, Li, Leping, Lin, Wei, Ma, Suli, Shen, Yuandeng, Zheng, Ruisheng, Liu, Suo, Bai, Xianyong, Deng, Yuanyong & Wang, Jingxiu, ApJ, 987, L3

2024

  1. Eruption of a Million-Kelvin Warm Magnetic Flux Rope on the Sun [5]
    Li, Leping, Song, Hongqiang, Peter, Hardi, Chitta, Lakshmi Pradeep, Cheng, Xin, Li, Zhentong & Zhou, Guiping, ApJ, 967, 130
  2. Three Types of Solar Coronal Rain during Magnetic Reconnection between Open and Closed Magnetic Structures [5]
    Qiao, Fangfang, Li, Leping, Tian, Hui, Hou, Zhenyong, Song, Hongqiang, Ji, Kaifan & Sun, Zheng, ApJ, 973, 57
  3. Unraveling the untwisting process and upward mass transfer of a twisted prominence driven by vortex motion [2]
    Zhang, X. F., Zhou, G. P., Jin, C. L., Zhang, Y. Z., Li, G. W., Shang, Z. H., Li, L. P., Yang, S. B., Yang, S. H. & Wang, J. X., A&A, 690, A134
  4. Alpha–Proton Differential Flow of a Coronal Mass Ejection at 15 Solar Radii [0]
    Zhang, Xuechao, Song, Hongqiang, Wang, Xiaoqian, Li, Leping, Fu, Hui, Wang, Rui & Chen, Yao, ApJ, 973, L36
  5. Comparison of Ion–Proton Differential Speed between Interplanetary Coronal Mass Ejections and Solar Wind near 1 au [4]
    Zhang, Xuechao, Song, Hongqiang, Zhang, Chengxiao, Fu, Hui, Li, Leping, Li, Jinrong, Wang, Xiaoqian, Wang, Rui & Chen, Yao, ApJ, 967, 118

2023

  1. Partial Eruption of Solar Filaments. I. Configuration and Formation of Double-decker Filaments [16]
    Hou, Yijun, Li, Chuan, Li, Ting, Su, Jiangtao, Qiu, Ye, Yang, Shuhong, Yang, Liheng, Li, Leping, Guo, Yilin, Hou, Zhengyong, Song, Qiao, Bai, Xianyong, Zhou, Guiping, Ding, Mingde, Gan, Weiqun & Deng, Yuanyong, ApJ, 959, 69
  2. Formation and Dynamics in an Observed Preeruptive Filament [4]
    Huang, Jing, Zhang, Yin, Tan, Baolin, Bai, Xianyong, Li, Leping, Hou, Zhenyong, Yang, Xiao, Ji, Kaifan, Song, Yongliang, Hu, Ziyao & Deng, Yuanyong, ApJ, 958, L13
  3. Comparison of the Composition of ICMEs from Active Regions and Quiet-Sun Regions [3]
    Li, Jinrong, Song, Hongqiang, Lv, Qi, Fu, Hui, Li, Leping, Zheng, Ruisheng & Chen, Yao, ApJ, 945, 163
  4. Heating of Quiescent Coronal Loops Caused by Nearby Eruptions Observed with the Solar Dynamics Observatory and the Solar Upper Transition Region Imager [6]
    Li, Leping, Tian, Hui, Chen, Huadong, Song, Hongqiang, Hou, Zhenyong, Bai, Xianyong, Ji, Kaifan & Deng, Yuanyong, ApJ, 949, 66
  5. The Structure of Coronal Mass Ejections Recorded by the K-Coronagraph at Mauna Loa Solar Observatory [15]
    Song, Hongqiang, Li, Leping, Zhou, Zhenjun, Xia, Lidong, Cheng, Xin & Chen, Yao, ApJ, 952, L22
  6. On the Nature of the Three-part Structure of Solar Coronal Mass Ejections [19]
    Song, Hongqiang, Zhang, Jie, Li, Leping, Yang, Zihao, Xia, Lidong, Zheng, Ruisheng & Chen, Yao, ApJ, 942, 19
  7. The Impulsive Acceleration of a Solar Filament Eruption Associated with a B-class Flare [8]
    Wang, Xinyue, Song, Hongqiang, Chen, Yao, Li, Leping, Hou, Zhenyong & Zheng, Ruisheng, ApJ, 957, 58

2022

  1. Coronal condensation as the source of transition-region supersonic downflows above a sunspot [25]
    Chen, Hechao, Tian, Hui, Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep & Hou, Zhenyong, A&A, 659, A107
  2. Blobs in a Solar EUV Jet [14]
    Chen, Jie, Erdélyi, Robertus, Liu, Jiajia, Deng, Yuanyong, Dover, Fionnlagh Mackenzie, Zhang, Qingmin, Zhang, Mei, Li, Leping & Su, Jiangtao, Frontiers in Astronomy and Space Sciences, 8, 238
  3. A Partial Filament Eruption in Three Steps Induced by External Magnetic Reconnection [18]
    Dai, Jun, Li, Zhentong, Wang, Ya, Xu, Zhe, Zhang, Yanjie, Li, Leping, Zhang, Qingmin, Su, Yingna & Ji, Haisheng, ApJ, 929, 85
  4. Failed Solar Eruption of a Multithermal Flux Rope [11]
    Li, Leping, Song, Hongqiang, Peter, Hardi & Chitta, Lakshmi Pradeep, ApJ, 941, L1
  5. Reconfiguration and Eruption of a Solar Filament by Magnetic Reconnection with an Emerging Magnetic Field [13]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep, Song, Hongqiang, Xu, Zhe & Xiang, Yongyuan, ApJ, 935, 85
  6. Toward a Unified Explanation for the Three-part Structure of Solar Coronal Mass Ejections [25]
    Song, Hongqiang, Li, Leping & Chen, Yao, ApJ, 933, 68
  7. Comparison of Helium Abundance between ICMEs and Solar Wind near 1 au [14]
    Song, Hongqiang, Cheng, Xin, Li, Leping, Zhang, Jie & Chen, Yao, ApJ, 925, 137

2021

  1. The Formation and Eruption of a Sigmoidal Filament Driven by Rotating Network Magnetic Fields [9]
    Dai, Jun, Ji, Haisheng, Li, Leping, Zhang, Jun & Chen, Huadong, ApJ, 906, 66
  2. Revisiting the formation mechanism for coronal rain from previous studies [10]
    Li, Le-Ping, Peter, Hardi, Chitta, Lakshmi Pradeep & Song, Hong-Qiang, Research in Astronomy and Astrophysics, 21, 255
  3. Formation of a Solar Filament by Magnetic Reconnection and Coronal Condensation [13]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep & Song, Hongqiang, ApJ, 919, L21
  4. On-disk Solar Coronal Condensations Facilitated by Magnetic Reconnection between Open and Closed Magnetic Structures [16]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep & Song, Hongqiang, ApJ, 910, 82
  5. Magnetic Reconnection between Loops Accelerated By a Nearby Filament Eruption [14]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep, Song, Hongqiang, Ji, Kaifan & Xiang, YongYuan, ApJ, 908, 213
  6. Solar Cycle Dependence of ICME Composition [15]
    Song, Hongqiang, Li, Leping, Sun, Yanyan, Lv, Qi, Zheng, Ruisheng & Chen, Yao, Solar Physics, 296, 111
  7. The Inhomogeneity of Composition along the Magnetic Cloud Axis [5]
    Song, Hongqiang, Hu, Qiang, Cheng, Xin, Zhang, Jie, Li, Leping, Zhao, Ake, Wang, Bing, Zheng, Ruisheng & Chen, Yao, Frontiers in Physics, 9, 375

2020

  1. Relation of Coronal Rain Originating from Coronal Condensations to Interchange Magnetic Reconnection [13]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep & Song, Hongqiang, ApJ, 905, 26
  2. Do All Interplanetary Coronal Mass Ejections Have a Magnetic Flux Rope Structure Near 1 au? [21]
    Song, H. Q., Zhang, J., Cheng, X., Li, G., Hu, Q., Li, L. P., Chen, S. J., Zheng, R. S. & Chen, Y., ApJ, 901, L21

2019

  1. Untwisting and Disintegration of a Solar Filament Associated with Photospheric Flux Cancellation [9]
    Chen, Huadong, Zheng, Ruisheng, Li, Leping, Ma, Suli, Bi, Yi & Yang, Shuhong, ApJ, 871, 229
  2. Hot prominence spicules launched from turbulent cool solar prominences [5]
    Chitta, L. P., Peter, H. & Li, L., A&A, 627, L5
  3. Plasma injection into a solar coronal loop [13]
    Li, L. P. & Peter, H., A&A, 626, A98
  4. Repeated Coronal Condensations Caused by Magnetic Reconnection between Solar Coronal Loops [23]
    Li, Leping, Peter, Hardi, Chitta, Lakshmi Pradeep, Zhang, Jun, Su, Jiangtao, Song, Hongqiang, Hou, Yijun & Xia, Chun, ApJ, 884, 34
  5. The Structure of Solar Coronal Mass Ejections in the Extreme-ultraviolet Passbands [24]
    Song, H. Q., Zhang, J., Li, L. P., Liu, Y. D., Zhu, B., Wang, B., Zheng, R. S. & Chen, Y., ApJ, 887, 124
  6. On the Nature of the Bright Core of Solar Coronal Mass Ejections [27]
    Song, H. Q., Zhang, J., Cheng, X., Li, L. P., Tang, Y. Z., Wang, B., Zheng, R. S. & Chen, Y., ApJ, 883, 43
  7. The Dynamics of AR 12700 in Its Early Emerging Phase. II. Fan-shaped Activities Relevant to Arch Filament Systems [3]
    Zhong, Sihui, Hou, Yijun, Li, Leping, Zhang, Jun & Xiang, Yongyuan, ApJ, 882, 110

2018

  1. Current Sheets in the Wake of an Eruption of Two Crossing Filaments [12]
    Dai, Jun, Yang, Jiayan, Li, Leping & Zhang, Jun, ApJ, 869, 118
  2. Spectroscopic and imaging observations of small-scale reconnection events [24]
    Li, Dong, Li, Leping & Ning, Zongjun, MNRAS, 479, 2382
  3. Quasi-periodic Fast Propagating Magnetoacoustic Waves during the Magnetic Reconnection Between Solar Coronal Loops [40]
    Li, Leping, Zhang, Jun, Peter, Hardi, Chitta, Lakshmi Pradeep, Su, Jiangtao, Song, Hongqiang, Xia, Chun & Hou, Yijun, ApJ, 868, L33
  4. Coronal Condensations Caused by Magnetic Reconnection between Solar Coronal Loops [49]
    Li, Leping, Zhang, Jun, Peter, Hardi, Chitta, Lakshmi Pradeep, Su, Jiangtao, Xia, Chun, Song, Hongqiang & Hou, Yijun, ApJ, 864, L4
  5. The Reversal of a Solar Prominence Rotation about Its Ascending Direction during a Failed Eruption [18]
    Song, H. Q., Zhou, Z. J., Li, L. P., Cheng, X., Zhang, J., Chen, Y., Chen, C. X., Ma, X. W., Wang, B. & Zheng, R. S., ApJ, 864, L37

2017

  1. The Three-part Structure of a Filament-unrelated Solar Coronal Mass Ejection [27]
    Song, H. Q., Cheng, X., Chen, Y., Zhang, J., Wang, B., Li, L. P., Li, B., Hu, Q. & Li, G., ApJ, 848, 21
  2. The Origin of Solar Filament Plasma Inferred from In Situ Observations of Elemental Abundances [37]
    Song, H. Q., Chen, Y., Li, B., Li, L. P., Zhao, L., He, J. S., Duan, D., Cheng, X. & Zhang, J., ApJ, 836, L11

2016

  1. Tether-cutting Reconnection between Two Solar Filaments Triggering Outflows and a Coronal Mass Ejection [38]
    Chen, Huadong, Zhang, Jun, Li, Leping & Ma, Suli, ApJ, 818, L27
  2. A Solar Flare Disturbing a Light Wall above a Sunspot Light Bridge [20]
    Hou, Yijun, Zhang, Jun, Li, Ting, Yang, Shuhong, Li, Leping & Li, Xiaohong, ApJ, 829, L29
  3. Oscillation of Current Sheets in the Wake of a Flux Rope Eruption Observed by the Solar Dynamics Observatory [50]
    Li, L. P., Zhang, J., Su, J. T. & Liu, Y., ApJ, 829, L33
  4. Magnetic reconnection between a solar filament and nearby coronal loops [109]
    Li, Leping, Zhang, Jun, Peter, Hardi, Priest, Eric, Chen, Huadong, Guo, Lijia, Chen, Feng & Mackay, Duncan, Nature Physics, 12, 847

2015

  1. Confined Flares in Solar Active Region 12192 from 2014 October 18 to 29 [73]
    Chen, Huadong, Zhang, Jun, Ma, Suli, Yang, Shuhong, Li, Leping, Huang, Xin & Xiao, Junmin, ApJ, 808, L24
  2. Heating and cooling of coronal loops observed by SDO [17]
    Li, L. P., Peter, H., Chen, F. & Zhang, J., A&A, 583, A109
  3. Coronal Heating By the Interaction between Emerging Active Regions and the Quiet Sun Observed By the Solar Dynamics Observatory [16]
    Zhang, Jun, Zhang, Bin, Li, Ting, Yang, Shuhong, Zhang, Yuzong, Li, Leping, Chen, Feng & Peter, Hardi, ApJ, 799, L27

2014

  1. Conversion from mutual helicity to self-helicity observed with IRIS [35]
    Li, L. P., Peter, H., Chen, F. & Zhang, J., A&A, 570, A93
  2. The formation and disappearance of filament barbs observed by SDO [3]
    Li, Leping & Zhang, Jun, Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 44

2013

  1. Improving the performance of solar flare prediction using active longitudes information [37]
    Huang, X., Zhang, L., Wang, H. & Li, L., A&A, 549, A127
  2. Eruptions of two flux ropes observed by SDO and STEREO [51]
    Li, L. P. & Zhang, J., A&A, 552, L11
  3. The Evolution of Barbs of a Polar Crown Filament Observed by SDO [32]
    Li, Leping & Zhang, Jun, Solar Physics, 282, 147
  4. Magnetic Reconnection: From "Open" Extreme-ultraviolet Loops to Closed Post-flare Ones Observed by SDO [14]
    Zhang, Jun, Yang, Shuhong, Li, Ting, Zhang, Yuzong, Li, Leping & Jiang, Chaowei, ApJ, 776, 57

2012

  1. Ensemble prediction model of solar proton events associated with solar flares and coronal mass ejections [15]
    Huang, Xin, Wang, Hua-Ning & Li, Le-Ping, Research in Astronomy and Astrophysics, 12, 313
  2. Study of the first productive active region in solar cycle 24 [23]
    Li, L. P., Zhang, J., Li, T., Yang, S. H. & Zhang, Y. Z., A&A, 539, A7

2011

  1. Polar plumes observed at the total solar eclipse in 2009 [5]
    Yang, ShuHong, Zhang, Jun, Zhang, ZhiYong, Zhao, ZhaoWang, Liu, YangBing, Song, Qian, Yang, ShangBin, Bao, XingMing, Li, LePing, Chu, Zhe & Li, Ting, Science China Physics, Mechanics, and Astronomy, 54, 1906

2009

  1. A statistical study on the brightening propagation of post-flare loops [5]
    Li, Leping, Duan, Hongyu & Zhang, Jun, Science in China: Physics, Mechanics and Astronomy, 52, 1723
  2. Statistics of Flares Sweeping Across Sunspots [21]
    Li, Leping & Zhang, Jun, ApJ, 706, L17
  3. Observations of the Magnetic Reconnection Signature of an M2 Flare on 2000 March 23 [27]
    Li, Leping & Zhang, Jun, ApJ, 703, 877
  4. On the Brightening Propagation of Post-Flare Loops Observed by TRACE [38]
    Li, Leping & Zhang, Jun, ApJ, 690, 347
  5. Response of the solar atmosphere to magnetic field evolution in a coronal hole region [21]
    Yang, S. H., Zhang, J., Jin, C. L., Li, L. P. & Duan, H. Y., A&A, 501, 745
  6. Two types of dynamic cool coronal structures observed with STEREO and Hinode [9]
    Zhang, Jun & Li, Le-Ping, Research in Astronomy and Astrophysics, 9, 1368

2007

  1. Evolution of coronal mass ejections in the early stage [1]
    Bao, Xingming, Zhang, Hongqi, Lin, Jun, Jiang, Yunchun & Li, Leping, Advances in Space Research, 39, 1847
  2. Interaction between a Fast Rotating Sunspot and Ephemeral Regions as the Origin of the Major Solar Event on 2006 December 13 [110]
    Zhang, Jun, Li, Leping & Song, Qiao, ApJ, 662, L35

2006

  1. Filament eruption, flare, coronal dimming and associated partial halo CME on 2001 September 17 [9]
    Jiang, Y. C., Li, L. P., Zhao, S. Q., Li, Q. Y., Chen, H. D. & Ma, S. L., New Astronomy, 11, 612
  2. The Filament Eruption of 1999 March 21 and Its Associated Coronal Dimmings and CME [20]
    Jiang, Yun-Chun, Li, Le-Ping & Yang, Li-Heng, Chinese Journal of Astronomy and Astrophysics, 6, 345

Created on Wed Apr 8 04:38:33 2026.