Publications of Han He

A list of publications authored or co-authored by Han He, 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: 0000-0001-9352-9189

List of publications ordered by citations
Number of papers: 57 (refereed: 50)
No. of citations: 871
First author papers: 19 (refereed: 14)

2026

  1. Stellar Chromospheric Activity Database of Solar-like Stars Based on the LAMOST Low-resolution Spectroscopic Survey. III. Calibrating the Chromospheric Basal Flux and the Connection to Stellar Rotation [0]
    Zhang, Weitao, He, Han & Zhang, Jun, ApJS, 283, 79

2025

  1. Variability of the Hα chromospheric activity of solar-like stars revealed by the time-domain data of the LAMOST Medium-Resolution Spectroscopic Survey [0]
    He, Han, Luo, Ali, Zhang, Haotong & Wang, Song, Astrophysics and Space Science, 370, 132

2024

  1. The Near-infrared Ca II Triplet as a Stellar Activity Indicator: A Library and Comparative Study [9]
    Huang, Xin, He, Yuji, Bai, Zhongrui, Yuan, Hailong, Yang, Mingkuan, Zhou, Ming, Dong, Yiqiao, Wang, Mengxin, He, Han, Zhang, Jinghua, Chu, Yaoquan, Zhao, Yongheng, Zhang, Yong & Zhang, Haotong, ApJS, 272, 6
  2. Stellar chromospheric activity database of solar-like stars based on the LAMOST Low-Resolution Spectroscopic Survey. II. The bolometric and photospheric calibration [7]
    Zhang, Weitao, Zhang, Jun, He, Han, Luo, Ali & Zhang, Haotong, A&A, 688, A23

2023

  1. Hα chromospheric activity of F-, G-, and K-type stars observed by the LAMOST medium-resolution spectroscopic survey [10]
    He, Han, Zhang, Weitao, Zhang, Haotong, Wang, Song, Luo, Ali & Zhang, Jun, Astrophysics and Space Science, 368, 63

2022

  1. Broadening and Redward Asymmetry of Hα Line Profiles Observed by LAMOST during a Stellar Flare on an M-type Star [45]
    Wu, Yuchuan, Chen, Hechao, Tian, Hui, Zhang, Liyun, Shi, Jianrong, He, Han, Lu, Hongpeng, Xu, Yu & Wang, Haifeng, ApJ, 928, 180
  2. Stellar Chromospheric Activity Database of Solar-like Stars Based on the LAMOST Low-Resolution Spectroscopic Survey [20]
    Zhang, Weitao, Zhang, Jun, He, Han, Song, Zhiping, Luo, Ali & Zhang, Haotong, ApJS, 263, 12

2021

  1. Flare Activity and Magnetic Feature Analysis of the Flare Stars. II. Subgiant Branch [5]
    Goodarzi, Hadis, Mehrabi, Ahmad, Khosroshahi, Habib G. & He, Han, ApJ, 906, 40
  2. Start-up of a Research Project on Activities of Solar-type Stars Based on the LAMOST Sky Survey [5]
    He, Han, Zhang, Haotong, Wang, Song, Yang, Shuhong & Zhang, Jun, Research Notes of the American Astronomical Society, 5, 6
  3. Characteristic time of stellar flares on Sun-like stars [25]
    Yan, Y., He, H., Li, C., Esamdin, A., Tan, B. L., Zhang, L. Y. & Wang, H., MNRAS, 505, L79

2020

  1. Space Weather Related to Solar Eruptions with the ASO-S Mission [8]
    Feng, Li, Gan, Weiqun, Liu, Siqing, Wang, Huaning, Li, Hui, Xu, Long, Zong, Weiguo, Zhang, Xiaoxing, Zhu, Yaguang, Wu, Haiyan, Chen, Anqin, Cui, Yanmei, Dai, Xinghua, Guo, Juan, He, Han, Huang, Xin, Lu, Lei, Song, Qiao, Wang, Jingjing, Zhong, Qiuzhen, Chen, Ling, Du, Zhanle, Guo, Xingliang, Huang, Yu, Li, Hu, Li, Ying, Xiong, Senlin, Yang, Shenggao & Ying, Beili, Frontiers in Physics, 8, 45
  2. Numerical analysis of the time series magnetic fields in solar active regions for solar flare forecasting [0]
    He, Han, essoar.10501958
  3. Chirality and magnetic configuration associated with two-ribbon solar flares: AR 10930 versus AR 11158 [1]
    He, Han, Wang, Huaning, Yan, Yihua, Li, Bo & Chen, P. F., Advances in Space Research, 65, 2828
  4. Magnetic Activity of F-, G-, and K-type Stars in the LAMOST-Kepler Field [50]
    Zhang, Jinghua, Bi, Shaolan, Li, Yaguang, Jiang, Jie, Li, Tanda, He, Han, Yu, Jie, Khanna, Shourya, Ge, Zhishuai, Liu, Kang, Tian, Zhijia, Wu, Yaqian & Zhang, Xianfei, ApJS, 247, 9

2019

  1. Flare Activity and Magnetic Feature Analysis of the Flare Stars [9]
    Goodarzi, Hadis, Mehrabi, Ahmad, Khosroshahi, Habib G. & He, Han, ApJS, 244, 37
  2. The Role of a Magnetic Topology Skeleton in a Solar Active Region [10]
    Guo, Juan, Wang, Huaning, Wang, Jingxiu, Zhu, Xiaoshuai, Dai, Xinghua, Huang, Xin, He, Han, Yan, Yan & Zhao, Hui, ApJ, 874, 181
  3. Magnetic activity properties of M-type kepler stars [3]
    Mehrabi, Ahmad & He, Han, New Astronomy, 66, 31

2018

  1. Phase difference between long-term magnetic feature activity and flare activity of solar-type stars [1]
    He, Han, Wang, Huaning, Zhang, Mei, Mehrabi, Ahmad, Yan, Yan & Yun, Duo, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 217
  2. Magnetic Activity Discrepancies of Solar-Type Stars Revealed by Kepler Light Curves [8]
    He, Han, Wang, Huaning, Yan, Yan & Yun, Duo, Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 7
  3. A brief history of Regional Warning Center China (RWC-China) [2]
    He, Han, Wang, Huaning, Du, Zhanle, Huang, Xin, Yan, Yan, Dai, Xinghua, Guo, Juan & Wang, Jialong, History of Geo- and Space Sciences, 9, 41
  4. Activity Analyses for Solar-type Stars Observed with Kepler. II. Magnetic Feature versus Flare Activity [30]
    He, Han, Wang, Huaning, Zhang, Mei, Mehrabi, Ahmad, Yan, Yan & Yun, Duo, ApJS, 236, 7
  5. Waiting time distributions of solar and stellar flares: Poisson process or with memory? [16]
    Li, C., Zhong, S. J., Xu, Z. G., He, H., Yan, Y., Chen, P. F. & Fang, C., MNRAS, 479, L139
  6. Numerical Short-Term Solar Activity Forecasting [4]
    Wang, Huaning, Yan, Yihua, He, Han, Huang, Xin, Dai, Xinghua, Zhu, Xiaoshuai, Du, Zhanle, Zhao, Hui & Yan, Yan, Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 243
  7. Decades of Chinese Solar and Geophysical Data [5]
    Yan, Yan, Du, Zhan-Le, Wang, Hua-Ning, He, Han, Guo, Juan, Huang, Xin, Zhu, Xiao-Shuai, Dai, Xing-Hua & Lin, Gang-Hua, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 71

2017

  1. Imaging of plasmasphere by Chang'e 3 [0]
    He, Han, Wang, Huaning, Shen, Chao, Zhang, Xiaoxin, Chen, Bo, Yan, Jun, Zou, Yongliao, Li, Chunlai, Jorgensen, Anders M., He, Fei, Yan, Yan, Zhu, Xiaoshuai, Huang, Ya & Xu, Ronglan, 2017 XXXIInd General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS), p. 342
  2. Magnetic Activity Analysis for a Sample of G-type Main Sequence Kepler Targets [23]
    Mehrabi, Ahmad, He, Han & Khosroshahi, Habib, ApJ, 834, 207
  3. Analysis of Characteristics of Light Curve Profiles of the Flares Erupted from Sun-like Stars [6]
    Yun, Duo, Wang, Hua-ning & He, Han, Chinese Astronomy and Astrophysics, 41, 32

2016

  1. Response of plasmaspheric configuration to substorms revealed by Chang’e 3 [16]
    He, Han, Shen, Chao, Wang, Huaning, Zhang, Xiaoxin, Chen, Bo, Yan, Jun, Zou, Yongliao, Jorgensen, Anders M., He, Fei, Yan, Yan, Zhu, Xiaoshuai, Huang, Ya & Xu, Ronglan, Scientific Reports, 6, 32362
  2. Analysis of observational data from Extreme Ultra-Violet Camera onboard Chang'E-3 mission [12]
    Yan, Yan, Wang, Hua-Ning, He, Han, He, Fei, Chen, Bo, Feng, Jian-Qing, Ping, Jin-Song, Shen, Chao, Xu, Rong-Lan & Zhang, Xiao-Xin, Astrophysics and Space Science, 361, 76
  3. Forced Field Extrapolation of the Magnetic Structure of the Hα fibrils in the Solar Chromosphere [35]
    Zhu, Xiaoshuai, Wang, Huaning, Du, Zhanle & He, Han, ApJ, 826, 51

2015

  1. An Improvement on Mass Calculations of Solar Coronal Mass Ejections via Polarimetric Reconstruction [13]
    Dai, Xinghua, Wang, Huaning, Huang, Xin, Du, Zhanle & He, Han, ApJ, 801, 39
  2. Activity Analyses for Solar-type Stars Observed with Kepler. I. Proxies of Magnetic Activity [38]
    He, Han, Wang, Huaning & Yun, Duo, ApJS, 221, 18
  3. Cluster of solar active regions and onset of coronal mass ejections [14]
    Wang, JingXiu, Zhang, YuZong, He, Han, Chen, AnQin, Jin, ChunLan & Zhou, GuiPing, Science China Physics, Mechanics, and Astronomy, 58, 5682

2014

  1. The Classification of Ambiguity in Polarimetric Reconstruction of Coronal Mass Ejection [15]
    Dai, Xinghua, Wang, Huaning, Huang, Xin, Du, Zhanle & He, Han, ApJ, 780, 141
  2. Variations of the 3-D coronal magnetic field associated with the X3.4-class solar flare event of AR 10930 [13]
    He, Han, Wang, Huaning, Yan, Yihua, Chen, P. F. & Fang, Cheng, Journal of Geophysical Research (Space Physics), 119, 3286
  3. Characteristics of the Photospheric Magnetic Field Associated with Solar Flare Initiation [18]
    Yang, Ya-Hui, Chen, P. F., Hsieh, Min-Shiu, Wu, S. T., He, Han & Tsai, Tsung-Che, ApJ, 786, 72

2012

  1. Application of a data-driven simulation method to the reconstruction of the coronal magnetic field [8]
    Fan, Yu-Liang, Wang, Hua-Ning, He, Han & Zhu, Xiao-Shuai, Research in Astronomy and Astrophysics, 12, 563
  2. Recent Progress of Solar Weather Forecasting at Naoc [4]
    He, Han, Wang, Huaning, Du, Zhanle, Zhang, Liyun, Huang, Xin, Yan, Yan, Fan, Yuliang, Zhu, Xiaoshuai, Guo, Xiaobo & Dai, Xinghua, Advances in Geosciences, Volume 30: Planetary Science (PS) (Editors: Satake, Kenji, Bhardwaj, Anil & Yau, Andrew), 30, p. 117
  3. A method of magnetosonic characteristics to correct the ``rarefaction shocks'' problem arising in ZEUS [1]
    Zhu, XiaoShuai, Wang, HuaNing, Fan, YuLiang, Du, ZhanLe & He, Han, Science China Physics, Mechanics, and Astronomy, 55, 1720

2011

  1. Study of the Poynting Flux in Active Region 10930 Using Data-driven Magnetohydrodynamic Simulation [12]
    Fan, Y. L., Wang, H. N., He, H. & Zhu, X. S., ApJ, 737, 39
  2. Nonlinear force-free field extrapolation of the coronal magnetic field using the data obtained by the Hinode satellite [19]
    He, Han, Wang, Huaning & Yan, Yihua, Journal of Geophysical Research (Space Physics), 116, A01101
  3. Statistical analysis of solar EUV and X-ray flux enhancements induced by solar flares and its implication to upper atmosphere [29]
    Le, Huijun, Liu, Libo, He, Han & Wan, Weixing, Journal of Geophysical Research (Space Physics), 116, A11301

2010

  1. Observational Evidence of Unwinding and Chirality Changing in Penumbral Filaments by Hinode [13]
    Su, Jiangtao, Liu, Yu, Zhang, Hongqi, Mao, Xinjie, Zhang, Yin & He, Han, ApJ, 710, 170

2009

  1. RESEARCH PAPER: A logistic model for magnetic energy storage in solar active regions [13]
    Wang, Hua-Ning, Cui, Yan-Mei & He, Han, Research in Astronomy and Astrophysics, 9, 687

2008

  1. A summary of the applications of a weighted average method determining times of solar cycle extrema [4]
    Du, Z. L., Wang, H. N., He, H., Zhang, L. Y., Li, R. & Cui, Y. M., Advances in Space Research, 42, 1457
  2. Nonlinear force-free coronal magnetic field extrapolation scheme based on the direct boundary integral formulation [24]
    He, Han & Wang, Huaning, Journal of Geophysical Research (Space Physics), 113, A05S90
  3. Solar activity prediction studies and services in NAOC [12]
    He, Han, Wang, Huaning, Du, Zhanle, Li, Rong, Cui, Yanmei, Zhang, Liyun & He, Yulin, Advances in Space Research, 42, 1450
  4. Application of support vector machine combined with K-nearest neighbors in solar flare and solar proton events forecasting [41]
    Li, Rong, Cui, Yanmei, He, Han & Wang, Huaning, Advances in Space Research, 42, 1469
  5. Solar flare forecasting model supported with artificial neural network techniques [51]
    Wang, H. N., Cui, Y. M., Li, R., Zhang, L. Y. & Han, H., Advances in Space Research, 42, 1464

2007

  1. Correlation between Solar Flare Productivity and Photospheric Magnetic Field Properties II. Magnetic Gradient and Magnetic Shear [40]
    Cui, Yanmei, Li, Rong, Wang, Huaning & He, Han, Solar Physics, 242, 1
  2. Support Vector Machine combined with K-Nearest Neighbors for Solar Flare Forecasting [59]
    Li, Rong, Wang, Hua-Ning, He, Han, Cui, Yan-Mei & Zhan-LeDu, Chinese Journal of Astronomy and Astrophysics, 7, 441
  3. Longitudinal distribution of major solar flares during 1975 2005 [13]
    Zhang, L. Y., Cui, Y. M., He, Y. L., He, H., Du, Z. L., Li, R. & Wang, H. N., Advances in Space Research, 40, 970
  4. Long-term behavior of active longitudes for solar X-ray flares [26]
    Zhang, L. Y., Wang, H. N., Du, Z. L., Cui, Y. M. & He, H., A&A, 471, 711

2006

  1. The validity of the boundary integral equation for magnetic field extrapolation in open space above a spherical surface [19]
    He, Han & Wang, Huaning, MNRAS, 369, 207

2003

  1. Actions for Vacuum Einstein's Equation with a Killing Symmetry [2]
    He, Han, Ma, Yongge & Yang, Xuejun, International Journal of Modern Physics D, 12, 1961
  2. Quantum Thermal Effect of Nonstationary Kerr-Newman Black Hole [4]
    Yang, Xuejun, He, Han & Zhao, Zheng, General Relativity and Gravitation, 35, 579

2002

  1. Entropy of an Arbitrarily Accelerating Black Hole [1]
    Tian, Guihua, Han, He & Zheng, Zhao, General Relativity and Gravitation, 34, 1357

Created on Wed Apr 22 04:31:30 2026.