First-authored, refereed papers of Weiqun Gan

A list of first-authored, refereed publications of Weiqun Gan, 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: 0000-0001-9979-4178

List of publications ordered by citations
Number of papers: 62
No. of citations: 934

2025

1. ASO-S Mission: Inflight Performance and First Results [1]
   Gan, W. Q., Leibacher, John, Mandrini, Cristina H. & van Driel-Gesztelyi, Lidia, Solar Physics, 300, 59

2024

1. Progress Report on ASO-S: 2022─2024 [1]
   GAN, Weiqun, Chinese Journal of Space Science, 44, 687

2023

1. The Advanced Space-Based Solar Observatory (ASO-S) [96]
   Gan, Weiqun, Zhu, Cheng, Deng, Yuanyong, Zhang, Zhe, Chen, Bo, Huang, Yu, Deng, Lei, Wu, Haiyan, Zhang, Haiying, Li, Hui, Su, Yang, Su, Jiangtao, Feng, Li, Wu, Jian, Cui, Jijun, Wang, Chi, Chang, Jin, Yin, Zengshan, Xiong, Weiming, Chen, Bin, Yang, Jianfeng, Li, Fu, Lin, Jiaben, Hou, Junfeng, Bai, Xianyong, Chen, Dengyi, Zhang, Yan, Hu, Yiming, Liang, Yaoming, Wang, Jianping, Song, Kefei, Guo, Quanfeng, He, Lingping, Zhang, Guang, Wang, Peng, Bao, Haicao, Cao, Caixia, Bai, Yanping, Chen, Binglong, He, Tao, Li, Xinyu, Zhang, Ye, Liao, Xing, Jiang, Hu, Li, Youping, Su, Yingna, Lei, Shijun, Chen, Wei, Li, Ying, Zhao, Jie, Li, Jingwei, Ge, Yunyi, Zou, Ziming, Hu, Tai, Su, Miao, Ji, Haidong, Gu, Mei, Zheng, Yonghuang, Xu, Dezhen & Wang, Xing, Solar Physics, 298, 68

2022

1. Space Solar Physics in China: 2020─2022 [0]
   GAN, Weiqun & FAN, Quanlin, Chinese Journal of Space Science, 42, 608
2. Progress Report on ASO-S [3]
   GAN, Weiqun, Chinese Journal of Space Science, 42, 565
3. China's First Comprehensive Space Solar Observatory [7]
   Gan, W. Q., Zhu, C., Chen, B. & Huang, Y., Acta Astronomica Sinica, 63, 60

2021

1. 40 Years of Space Solar Physics in China [3]
   Gan, Weiqun, Chang, Jin & Ma, Yuqian, Chinese Journal of Space Science, 41, 76

2020

1. Space Solar Physics in China [2]
   GAN, Weiqun, Chinese Journal of Space Science, 40, 726
2. Status of the Advanced Space-based Solar Observatory [4]
   GAN, Weiqun, Chinese Journal of Space Science, 40, 704

2019

1. Advanced Space-based Solar Observatory (ASO-S): an overview [181]
   Gan, Wei-Qun, Zhu, Cheng, Deng, Yuan-Yong, Li, Hui, Su, Yang, Zhang, Hai-Ying, Chen, Bo, Zhang, Zhe, Wu, Jian, Deng, Lei, Huang, Yu, Yang, Jian-Feng, Cui, Ji-Jun, Chang, Jin, Wang, Chi, Wu, Ji, Yin, Zeng-Shan, Chen, Wen, Fang, Cheng, Yan, Yi-Hua, Lin, Jun, Xiong, Wei-Ming, Chen, Bin, Bao, Hai-Chao, Cao, Cai-Xia, Bai, Yan-Ping, Wang, Tao, Chen, Bing-Long, Li, Xin-Yu, Zhang, Ye, Feng, Li, Su, Jiang-Tao, Li, Ying, Chen, Wei, Li, You-Ping, Su, Ying-Na, Wu, Hai-Yan, Gu, Mei, Huang, Lei & Tang, Xue-Jun, Research in Astronomy and Astrophysics, 19, 156
2. Prospect for space solar physics in 2016-2030 [13]
   Gan, Weiqun, Yan, Yihua & Huang, Yu,, Scientia Sinica Physica, Mechanica & Astronomica, 49, 059602

2018

1. Space Solar Physics in China [6]
   GAN, Weiqun & FAN, Quanlin, Chinese Journal of Space Science, 38, 662

2016

1. Space Solar Physics in China:2014—2016 [5]
   GAN, Weiqun, Chinese Journal of Space Science, 36, 636

2014

1. Space Solar Physics in 2012?2014 [4]
   Gan, Weiqun, Chinese Journal of Space Science, 34, 563

2012

1. The past and future of space solar observations [10]
   Gan, WeiQun, Huang, Yu & Yan, YiHua, Scientia Sinica Physica, Mechanica & Astronomica, 42, 1274

2010

1. Space astronomy in China: 2008—2010 [6]
   Gan, Weiqun, Zhang, Shuangnan, Yan, Yihua & Chang, Jin, Chinese Journal of Space Science, 30, 424

2008

1. On the motions of RHESSI flare footpoints [18]
   Gan, W. Q., Li, Y. P. & Miroshnichenko, L. I., Advances in Space Research, 41, 908

2005

1. Gamma-ray line analysis for the flares of 28 October and 2 November 2003 [8]
   Gan, W. Q., Advances in Space Research, 35, 1833

2004

1. On Both the Time Histories of the 0.511 MeV Line and 2.223 MeV Line from the X4.8 Flare of 23 July 2002 Observed with Rhessi [9]
   Gan, W. Q., Solar Physics, 219, 279
2. On the Positronium Continuum and 0.511 MeV Line in Solar Flares [4]
   Gan, Wei-Qun, Chang, Jin, Li, You-Ping, Su, Yang & Miroshnichenko, L. I., Chinese Journal of Astronomy and Astrophysics, 4, 357

2003

1. A Clarification on the invariable point in the power-law energy spectra of non-thermal electrons of solar flares [0]
   Gan, W. Q., Chang, J. & Ma, T., Astrophysics and Space Science, 288, 451
2. RHESSI observation of the M4.0 flare on 17 March 2002 [2]
   Gan, W. Q., Li, Y. P., Yu, X. X. & Feng, L., Advances in Space Research, 32, 2471

2002

1. An Improved Method to Derive the Lower Energy Cutoff of non-Thermal Electrons From Hard x-Rays of Solar Flares [17]
   Gan, W. Q., Li, Y. P., Chang, J. & Tiernan, James M., Solar Physics, 207, 137
2. On Broadening Mechanisms of the Ca XIX Resonance Line in Solar Flares [3]
   Gan, W. Q. & Li, Y. P., Solar Physics, 205, 117
3. Several of the biggest blueshifted events observed with BCS/Yohkoh [1]
   Gan, W. Q. & Li, Y. P., Advances in Space Research, 30, 683
4. Solar gamma-ray spectroscopy and abundance of elements [3]
   Gan, W. Q., Acta Astronomica Sinica, 43, 1
5. On the Evolution of the Lower Energy Cutoff of Nonthermal Electrons in Solar Flares [7]
   Gan, Wei-Qun, Li, You-Ping & Chang, Jin, Chinese Journal of Astronomy and Astrophysics, 2, 103
6. Solar gamma-ray spectroscopy and abundance of elements [4]
   Gan, Wei-qun, Chinese Astronomy and Astrophysics, 26, 255
7. Solar hard X-rays and gamma-rays [0]
   Gan, Weiqun, Chang, Jin, Li, Youping & Lin, Chunmei, Science in China A: Mathematics, 45, 30

2001

1. Energy Shortage of Nonthermal Electrons in Powering a Solar Flare [39]
   Gan, W. Q., Li, Y. P. & Chang, J., ApJ, 552, 858
2. On the Lower Energy Cutoff of Nonthermal Electrons in Solar Flares [9]
   Gan, Wei-Qun, Li, You-Ping & Chang, Jin, Chinese Journal of Astronomy and Astrophysics, 1, 453

2000

1. A comparison between the spectral parameters of both electron and proton dominated events [5]
   Gan, W. Q., Astrophysics and Space Science, 274, 481
2. On the origin of solar white-light flares [11]
   Gan, W. Q., Hénoux, J. C. & Fang, C., A&A, 354, 691

1999

1. On Temporal Variation of the 0.511 MeV Line in A Solar Flare [6]
   Gan, W. Q. & Rieger, E., Solar Physics, 186, 311

1998

1. Redshift of the Ca XIX Resonance Line in Solar Flares Observed with YOHKOH Bragg Crystal Spectrometer [6]
   Gan, W. Q., ApJ, 508, 418
2. Spectral Evolution of Energetic Protons in Solar Flares [22]
   Gan, W. Q., ApJ, 496, 992
3. An Invariable Point in the Energy Spectra of Non-Thermal Electrons of Solar Flares [10]
   Gan, W. Q., Astrophysics and Space Science, 260, 515
4. The origin of solar white-light flares [0]
   Gan, Wei-Qun, Chinese Astronomy and Astrophysics, 22, 243

1997

1. A Statistical Study of the Resonance Line of CA XIX Observed with it YOHKOH Bragg Crystal Spectrometer [11]
   Gan, W. Q. & Watanabe, T., Solar Physics, 174, 403
2. Line shifts observed by BCS/Yohkoh [1]
   Gan, W. Q. & Watanabe, T., Advances in Space Research, 20, 2319
3. A discussion on the origin of solar white-light flares. [3]
   Gan, Wei-Qun, Acta Astronomica Sinica, 38, 394
4. The spectral diagnostics for a hydrodynamical models of the gradual phase of solar flares. [2]
   Gan, Wei-Qun & Lin, Chun-Mei, Acta Astronomica Sinica, 38, 273

1996

1. The confirmation of chromospheric condensation in solar flares [2]
   Gan, W. Q. & Rieger, E., Advances in Space Research, 17, 153

1995

1. On Thermal Hydrodynamical Models of Solar Flares with a High Initial Coronal Density [8]
   Gan, W. Q., Cheng, C. C. & Fang, C., ApJ, 452, 445

1994

1. Atmospheric Heating in Solar Flares by Chromospheric Condensation [34]
   Gan, W. Q. & Mauas, P. J. D., ApJ, 430, 891

1993

1. The Influence of Chromospheric Condensation on Hα Line Profiles [14]
   Gan, W. Q., Rieger, E., Fang, C. & Zhang, H. Q., Solar Physics, 143, 141
2. Semiempirical Flare Models with Chromospheric Condensation [51]
   Gan, W. Q., Rieger, E. & Fang, C., ApJ, 416, 886

1992

1. The Role of Chromospheric Condensations in the Continuum Emission of White-Light Flares [34]
   Gan, W. Q., Rieger, E., Zhang, H. Q. & Fang, C., ApJ, 397, 694
2. Spectral diagnostics for a thermal hydrodynamical model of a solar flare loop [21]
   Gan, W. Q., Rieger, E., Fang, C. & Zhang, H. Q., A&A, 266, 573

1991

1. A Numerical Simulation for the Cooling Process of the Solar Flare Loop [0]
   Gan, W. Q., Fang, C. & Zhang, H. Q., Publications of the Astronomical Society of Australia, 9, 317
2. A hydrodynamic model of the impulsive phase of a solar flare loop [78]
   Gan, W. Q., Zhang, H. Q. & Fang, C., A&A, 241, 618

1990

1. A Hydrodynamic Model of the Gradual Phase of the Solar Flare Loop [64]
   Gan, W. Q. & Fang, C., ApJ, 358, 328
2. The Origin of White-Light Flare Continuum [2]
   Gan, W. Q. & Zhang, H. Q., Acta Astronomica Sinica, 31, 94
3. Combined study between the chromospheric flare models and hard X-ray observation [10]
   Gan, Wei-Qun & Fang, Cheng, Solar Physics, 125, 333
4. A study on spectral line asymmetry of chromospheric flares. [9]
   Gan, Wei-Qun & Fang, Cheng, Acta Astrophysica Sinica, 10, 277
5. A study on the asymmetries in flare lines [2]
   Gan, Wei-qun & Fang, Cheng, Chinese Astronomy and Astrophysics, 14, 413

1988

1. Continuum of white-light flares and model atmosphere [0]
   Gan, Wei-Qun & Fang, Cheng, Acta Astrophysica Sinica, 8, 61
2. Semiempirical models of the impulsive phase of the chromospheric flare. [0]
   Gan, Wei-qun & Fang, Cheng, Chinese Journal of Space Science, 8, 12
3. Semiempirical models of the impulsive phase of the chromospheric flare [4]
   Gan, Weiqun & Fang, Cheng, Vistas in Astronomy, 31, 31

1987

1. Time-match semi-empirical models of the chromospheric flare on 3 February, 1983 [44]
   Gan, Wei-Qun & Fang, Cheng, Solar Physics, 107, 311
2. A non-LTE analysis of solar flare K line [9]
   Gan, Wei-qun & Fang, Cheng, Chinese Astronomy and Astrophysics, 11, 49

1986

1. A non-LTE analysis of solar flare K line [5]
   Gan, Wei-Qun & Fang, Cheng, Acta Astronomica Sinica, 27, 227