Publications of Ke-Jun Li

A list of publications authored or co-authored by Ke-Jun 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: 0000-0003-3944-9916

List of publications ordered by citations
Number of papers: 78 (refereed: 75)
No. of citations: 1604
First author papers: 76 (refereed: 73)

2024

  1. Height-dependent differential rotation of the solar atmosphere detected by CHASE [11]
    Rao, Shihao, Li, Chuan, Ding, Mingde, Hong, Jie, Chen, Feng, Fang, Cheng, Qiu, Ye, Li, Zhen, Chen, Pengfei, Li, Kejun, Hao, Qi, Guo, Yang, Cheng, Xin, Dai, Yu, Peng, Zhixin, You, Wei & Yuan, Yuan, Nature Astronomy, 8, 1102

2021

  1. Asymmetric Distribution of the Solar Photospheric Magnetic-Field Values [1]
    Xu, Jing-Chen, Li, Ke-Jun & Gao, Peng-Xin, ApJ, 919, 102

2020

  1. Investigation of the coronal heating through phase relation of solar activity indexes [7]
    Li, K. J., Xu, J. C., Yin, Z. Q., Xie, J. L. & Feng, W., Publications of the Astronomical Society of Australia, 37, e001
  2. Differential Rotation of the Chromosphere in the He I Absorption Line [14]
    Li, K. J., Xu, J. C., Xie, J. L. & Feng, W., ApJ, 905, L11

2019

  1. Why Does the Solar Corona Abnormally Rotate Faster Than the Photosphere? [29]
    Li, K. J., Xu, J. C., Yin, Z. Q. & Feng, W., ApJ, 875, 90

2018

  1. Is It Small-scale, Weak Magnetic Activity That Effectively Heats the Upper Solar Atmosphere? [14]
    Li, K. J., Xu, J. C. & Feng, W., ApJS, 237, 7

2017

  1. Periodicity for 50 yr of daily solar wind velocity [19]
    Li, K. J., Zhang, J. & Feng, W., MNRAS, 472, 289

2016

  1. Investigation of Sunspot Area Varying with Sunspot Number [5]
    Li, K. J., Li, F. Y., Zhang, J. & Feng, W., Solar Physics, 291, 2917
  2. Phase relations between total solar irradiance and the Mg II index [8]
    Li, K. J., Xu, J. C., Xiang, N. B. & Feng, W., Advances in Space Research, 57, 408
  3. A Statistical Analysis of 50 Years of Daily Solar Wind Velocity Data [18]
    Li, K. J., Zhanng, J. & Feng, W., The Astronomical Journal, 151, 128

2015

  1. Predicting the maximum amplitude of solar cycle 25 and its timing [36]
    Li, K. J., Feng, W. & Li, F. Y., Journal of Atmospheric and Solar-Terrestrial Physics, 135, 72

2014

  1. What do the solar activity indices represent? [9]
    Li , K. J., Kong, D. F., Liang, H. F. & Feng, W., Astronomische Nachrichten, 335, 371
  2. Long-Term Variations of Solar Differential Rotation and Sunspot Activity: Revisited [24]
    Li, K. J., Feng, W., Shi, X. J., Xie, J. L., Gao, P. X. & Liang, H. F., Solar Physics, 289, 759
  3. Hemispheric Sunspot Unit Area: Comparison with Hemispheric Sunspot Number and Sunspot Area [12]
    Li, K. J., Xiang, N. B., Qu, Z. N. & Xie, J. L., The Astronomical Journal, 147, 51

2013

  1. Solar-cycle-related variation of solar differential rotation [27]
    Li, K. J., Shi, X. J., Xie, J. L., Gao, P. X., Liang, H. F., Zhan, L. S. & Feng, W., MNRAS, 433, 521
  2. Internal-cycle Variation of Solar Differential Rotation [15]
    Li, K. J., Xie, J. L. & Shi, X. J., ApJS, 206, 15

2012

  1. Long-term variations of the coronal rotation and solar activity [23]
    Li, K. J., Shi, X. J., Feng, W., Xie, J. L., Gao, P. X., Zhan, L. S. & Liang, H. F., MNRAS, 423, 3584
  2. Why is the Solar Constant Not a Constant? [40]
    Li, K. J., Feng, W., Xu, J. C., Gao, P. X., Yang, L. H., Liang, H. F. & Zhan, L. S., ApJ, 747, 135

2011

  1. Variations of Solar Rotation and Sunspot Activity [27]
    Li, K. J., Shi, X. J., Liang, H. F., Zhan, L. S., Xie, J. L. & Feng, W., ApJ, 730, 49
  2. The rotation signal in daily sunspot areas [24]
    Li, K. J., Liang, H. F., Feng, W. & Zhan, L. S., Astrophysics and Space Science, 331, 441
  3. A brief review on the presentation of cycle 24, the first integrated solar cycle in the new millennium [24]
    Li, K. J., Feng, W., Liang, H. F., Zhan, L. S. & Gao, P. X., Annales Geophysicae, 29, 341

2010

  1. Periodicity of Total Solar Irradiance [14]
    Li, K. J., Xu, J. C., Liu, X. H., Gao, P. X. & Zhan, L. S., Solar Physics, 267, 295
  2. The north-south asymmetry of filaments in solar cycles 16-21 [37]
    Li, K. J., Liu, X. H., Gao, P. X. & Zhan, L. S., New Astronomy, 15, 346
  3. Latitude migration of solar filaments [37]
    Li, K. J., MNRAS, 405, 1040
  4. Relative phase analyses of long-term hemispheric solar flare activity [28]
    Li, K. J., Gao, P. X., Zhan, L. S., Shi, X. J. & Zhu, W. W., MNRAS, 401, 342
  5. Relationship between group sunspot numbers and Wolf sunspot numbers [11]
    Li, K. J. & Liang, H. F., Astronomische Nachrichten, 331, 709
  6. Phase shifts of the paired wings of butterfly diagrams [18]
    Li, Ke-Jun, Liang, Hong-Fei & Feng, Wen, Research in Astronomy and Astrophysics, 10, 1177

2009

  1. Cyclical Behavior of Coronal Mass Ejections [12]
    Li, K. J., Gao, P. X., Li, Q. X., Mu, J. & Su, T. W., Solar Physics, 257, 149
  2. Synchronization of Sunspot Numbers and Sunspot Areas [17]
    Li, K. J., Gao, P. X. & Zhan, L. S., Solar Physics, 255, 289
  3. Systematic Time Delay of Hemispheric Solar Activity [27]
    Li, K. J., Solar Physics, 255, 169
  4. The Long-term Behavior of the North South Asymmetry of Sunspot Activity [44]
    Li, K. J., Gao, P. X. & Zhan, L. S., Solar Physics, 254, 145
  5. The Long-Term Hemispheric Sunspot Activity [19]
    Li, K. J., Gao, P. X., Zhan, L. S. & Shi, X. J., ApJ, 691, 75
  6. The north-south asymmetry of solar activity at high latitudes [17]
    Li, K. J., Gao, P. X., Zhan, L. S., Shi, X. J. & Zhu, W. W., MNRAS, 394, 231
  7. Asymmetry of solar activity in cycle 23 [34]
    Li, K. J., Chen, H. D., Zhan, L. S., Li, Q. X., Gao, P. X., Mu, J., Shi, X. J. & Zhu, W. W., Journal of Geophysical Research (Space Physics), 114, A04101
  8. Synchronization of Hemispheric Sunspot Activity Revisited: Wavelet Transform Analyses [34]
    Li, K. J., Gao, P. X. & Zhan, L. S., ApJ, 691, 537
  9. What does the Sun tell and hint now? [13]
    Li, Ke-Jun, Research in Astronomy and Astrophysics, 9, 959

2008

  1. On the asynchronization of hemispheric high-latitude solar activity [18]
    Li, K. J., Gao, P. X., Zhan, L. S., Shi, X. J. & Zhu, W. W., MNRAS, 391, L34
  2. Cyclic behavior of solar full-disk activity [26]
    Li, K. J., Li, Q. X., Gao, P. X. & Shi, X. J., Journal of Geophysical Research (Space Physics), 113, A11108

2007

  1. On long-term solar activity at high latitudes [4]
    Li, K. J., Mu, J. & Li, Q. X., MNRAS, 376, L39
  2. Activity cycle of solar filaments [10]
    Li, K. J., Li, Q. X., Gao, P. X., Mu, J., Chen, H. D. & Su, T. W., Journal of Astrophysics and Astronomy, 28, 147

2006

  1. The Periodicity of High-Latitude Solar Activity [15]
    Li, K. J., Li, Q. X., Su, T. W. & Gao, P. X., Solar Physics, 239, 493
  2. High- And Low-Latitude Solar Activities: Who Leads Whom In Time Phase? [19]
    Li, K. J., Liang, H. F., Gao, P. X. & Su, T. W., Solar Physics, 236, 185
  3. Does High-Latitude Solar Activity Lead Low-Latitude Solar Activity in Time Phase? [7]
    Li, K. J., Gao, P. X. & Qiu, J., ApJ, 646, 1392

2005

  1. The Schwabe and Gleissberg Periods in the Wolf Sunspot Numbers and the Group Sunspot Numbers [38]
    Li, K. J., Gao, P. X. & Su, T. W., Solar Physics, 229, 181
  2. A method to evaluate the level of solar activity at the remainder of a progressing solar cycle [3]
    Li, K. J., Qiu, J., Xiang, F. Y., Gao, P. X. & Su, T. W., New Astronomy, 10, 209
  3. Sunspot Unit Area: A New Parameter to Describe Long-Term Solar Variability [27]
    Li, K. J., Qiu, J., Su, T. W. & Gao, P. X., ApJ, 621, L81
  4. Estimating the Size and Timing of the Maximum Amplitude of Solar Cycle 24 [24]
    Li, Ke-Jun, Gao, Peng-Xin & Su, Tong-Wei, Chinese Journal of Astronomy and Astrophysics, 5, 539

2004

  1. Periods of Activity Cycle of Polar Faculae [6]
    Li, Kejun, Qiu, Jiong, Su, Tongwei, Irie, Makoto & Gao, Pengxin, Publications of the Astronomical Society of Japan, 56, L49

2003

  1. On the Latitudinal Distribution of Sunspot Groups over a Solar Cycle [55]
    Li, K. J., Wang, J. X., Zhan, L. S., Yun, H. S., Liang, H. F., Zhao, H. J. & Gu, X. M., Solar Physics, 215, 99
  2. Asymmetry of solar active prominences separately at low and high latitudes from 1957 to 1998 [17]
    Li, K. J., Liu, X. H., Zhan, L. S., Liang, H. F., Zhao, H. J. & Zhong, S. H., New Astronomy, 8, 655

2002

  1. Phase Relation Between Activities of Solar Active Prominences Separately at low and High Latitudes [9]
    Li, K. J., Liu, X. H., Xiong, S. Y., Liang, H. F., Zhan, L. S. & Zhao, H. J., Solar Physics, 211, 165
  2. Statistical behavior of sunspot groups on the solar disk [25]
    Li, K. J., Liang, H. F., Yun, H. S. & Gu, X. M., Solar Physics, 205, 361
  3. Solar activity in extended cycles [3]
    Li, K. J., Yun, H. S., Liang, H. F. & Gu, X. M., Journal of Geophysical Research (Space Physics), 107, 1114
  4. A method for the prediction of relative sunspot number for the remainder of a progressing cycle with application to cycle 23 [14]
    Li, K. J., Zhan, L. S., Wang, J. X., Liu, X. H., Yun, H. S., Xiong, S. Y., Liang, H. F. & Zhao, H. Z., A&A, 392, 301
  5. Regularity of the north-south asymmetry of solar activity [113]
    Li, K. J., Wang, J. X., Xiong, S. Y., Liang, H. F., Yun, H. S. & Gu, X. M., A&A, 383, 648
  6. Asymmetrical Distribution of Sunspot Groups in the Solar Hemispheres [16]
    Li, Ke-Jun, Liu, Xiao-Hua, Yun, Hong-Sik, Xiong, Song-Ying, Liang, Hong-Fei, Zhao, Hai-Zhuan, Zhan, La-Sheng & Gu, Xiao-Ma, Publications of the Astronomical Society of Japan, 54, 629
  7. Activity Cycle of Polar Faculae [48]
    Li, Kejun, Irie, Makoto, Wang, Jingxiu, Xiong, Songying, Yun, Hongsik, Liang, Hongfei, Zhan, Lashen & Zhao, Haizhuan, Publications of the Astronomical Society of Japan, 54, 787

2001

  1. Hemispheric Variation in Solar Activity [50]
    Li, K. J., Yun, H. S. & Gu, X. M., ApJ, 554, L115
  2. Latitude Migration of Sunspot Groups [40]
    Li, K. J., Yun, H. S. & Gu, X. M., The Astronomical Journal, 122, 2115
  3. On long-term predictions of the maximum sunspot numbers of solar cycles 21 to 23 [48]
    Li, K. J., Yun, H. S. & Gu, X. M., A&A, 368, 285
  4. Investigations and analyses of long term solar activity [5]
    Li, Ke-Yun, Publications of the Yunnan Observatory, 1, 84

2000

  1. Does the southern dominance of solar activity really exist in solar cycle 21? [24]
    Li, K. J. & Gu, X. M., A&A, 353, 396
  2. Relationship between solar activities and large flood in the middle latitude regions of the Earth. [0]
    Li, Kejun, Xiang, Fuyuan, Li, Jianyong, Gu, Xiaoma, Li, Qiusha & Chen, Xuekun, Publications of the Yunnan Observatory, 2, 34
  3. Spectral analysis of the D3 emission lines of a mound prominence. II. Physical properties of the active edge and the mound prominence. [0]
    Li, Kejun, Gu, Xiaoma, Li, Qiusha & Li, Jianyong, Publications of the Yunnan Observatory, 1, 27
  4. Sunspot groups at high latitude [21]
    Li, Kejun, Gu, Xiaoma, Xiang, Fuyuan, Liu, Xiaohua & Chen, Xuekun, MNRAS, 317, 897
  5. Calculations and physical properties of the D3 emission lines of a prominence [6]
    Li, Kejun, Gu, Xiaoma & Chen, Xuekun, MNRAS, 313, 761

1999

  1. Longterm prediction of solar activity using Moscow Neutron Monitor Pressure-Corrected Values [9]
    Li, K. J. & Gu, X. M., A&A, 348, L59
  2. The shape of the sunspot cycle described by sunspot areas [30]
    Li, Kejun, A&A, 345, 1006

1998

  1. Statistical analysis of the X-ray flares (M >= 1) during the maximum period of solar cycle 22 [71]
    Li, K.-J., Schmieder, B. & Li, Q.-Sh., Astronomy and Astrophysics Supplement Series, 131, 99
  2. Physical properties of the quiescent prominence of 5June 1996, from Hα observations [11]
    Li, Kejun, Schmieder, B., Malherbe, J.-M., Roudier, Th. & Wiik, J.-E., Solar Physics, 183, 323

1997

  1. Was the flare on 5 July 1989 a white light flare? [2]
    Li, K. J. & Zhong, S. H., A&A, 317, 248
  2. The observations and analyses of an eruptive prominence [2]
    Li, Kejun & Zhong, Shuhua, Astronomy and Astrophysics Supplement Series, 126, 241

1996

  1. A Quantitative Analysis of the Surge of March 19, 1989 [9]
    Li, Kejun, Li, Jun, Gu, Xiaoma & Zhong, Shuhua, Solar Physics, 168, 91

1995

  1. The self-reversal line of a solar prominence and its broadening mechanism [3]
    Li, K. J., Ding, Y. J. & Zhong, S. H., MNRAS, 274, 689
  2. The sunspotless flare on April 12, 1991 and the evolution of the neighboring filaments. [2]
    Li, K. J., Zhong, S. H., Ding, Y. J., Bai, J. M. & Li, Q. Y., Astronomy and Astrophysics Supplement Series, 109, 347

1994

  1. The Application of the Quickest Descent Method to the Analysis of the Hα Line in Loops [12]
    Li, Kejun, Ding, Youji, Bai, Jinming, Zhong, Shuhua, Xuan, Jiayu & Li, Qiongying, Solar Physics, 150, 87

1993

  1. Physical parameter fields of the post-flare loop system on February 18, 1984 [12]
    Li, K. J., Ding, Y. J., Gu, X. M., Li, Q. S., Zhong, S. H. & Li, Q. Y., A&A, 269, 496
  2. Profiles of Self-Reversed Prominence Lines Interpreted Using a Three- Layered Model for the Variations of The Source Function [1]
    Li, Kejun, Ding, Youji, Bai, Jingming & Zhong, Shuhua, The Astronomical Journal, 106, 396

Created on Wed Apr 8 04:34:53 2026.