Publications of Weiqun Gan

A list of publications authored or co-authored by 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: 280 (refereed: 230)
No. of citations: 4055
First author papers: 82 (refereed: 62)

2025

1. Intense Hard X-Ray Emissions in C-class Flares: A Statistical Study with ASO-S/HXI Data [1]
   Chen, Changxue, Su, Yang, Chen, Wei, Li, Jingwei, Yu, Fu & Gan, Weiqun, ApJ, 987, L4
2. 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
3. Dither Pattern and Results of Inflight Flat-field Calibration of the Lyman-alpha Solar Telescope onboard ASO-S Mission [1]
   Li, J. W., Li, H., Feng, L., Li, Y., Huang, Y., Li, Y. P., Zhao, J., Lu, L., Ying, B. L., Xue, J. C., Ge, Y. Y., Zhang, P., Song, D. C., Li, Q., Li, S. T., Tian, J., Li, G., Liu, X. F., Shi, G. L., Shan, J. H., Jing, Z. C., Tian, Z. Y., Zhou, Y. & Gan, W. Q., Acta Astronomica Sinica, 66, 10
4. Dither Pattern and Results of Inflight Flat-field Calibration of the Lyman-alpha Solar Telescope onboard ASO-S Mission [0]
   Li, Jing-wei, Li, Hui, Feng, Li, Li, Ying, Huang, Yu, Li, You-ping, Zhao, Jie, Lu, Lei, Ying, Bei-li, Xue, Jian-chao, Ge, Yun-yi, Zhang, Ping, Song, De-chao, Li, Qiao, Li, Shu-ting, Tian, Jun, Li, Gen, Liu, Xiao-feng, Shi, Guang-lu, Shan, Jia-hui, Jing, Zhi-chen, Tian, Zheng-yuan, Zhou, Yue & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 49, 456
5. Early Evolution of the Cavity and Core of a Coronal Mass Ejection in the Inner Corona [1]
   Li, Shuting, Feng, Li, Ying, Beili, Song, Hongqiang, Shi, Guanglu, Shan, Jiahui, Zhao, Jie & Gan, Weiqun, ApJ, 991, 160
6. Understanding the Lyα Emission Observed by the Solar Disk Imager Aboard the Advanced Space-Based Solar Observatory [0]
   Li, Yiliang, Zhang, Ping, Tian, Zhengyuan, Feng, Li, Shi, Guanglu, Xue, Jianchao, Li, Ying, Tian, Jun, Ji, Kaifan, Ying, Beili, Lu, Lei, Li, Shuting, Shan, Jiahui, Li, Hui & Gan, Weiqun, Solar Physics, 300, 78
7. Tests of Solar X-Ray Image Reconstruction: A New Index for Assessing Image Quality [0]
   Li, Zhen-Tong, Yu, Wen-Hui, Su, Yang, Chen, Wei & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 25, 035009
8. Spectral Cross-Calibrations of ASO-S/HXI with Other X-ray Missions [2]
   Li, Zhentong, Su, Yang, Liu, Wei, Chen, Wei, Yu, Fu & Gan, Weiqun, Solar Physics, 300, 56
9. The Role of Farside Magnetic Structures in Modeling the 2024 Solar Eclipse [2]
   Shi, Guanglu, Shan, Jiahui, Feng, Li, Chen, Jun & Gan, Weiqun, ApJ, 992, 89
10. Unveiling Spatiotemporal Properties of the Quasiperiodic Pulsations in the Balmer Continuum at 3600 Å in an X-class Solar White-light Flare [8]
    Song, De-Chao, Dominique, Marie, Zimovets, Ivan, Li, Qiao, Li, Ying, Yu, Fu, Su, Yang, Nizamov, B. A., Wang, Ya, Battaglia, Andrea Francesco, Tian, Jun, Feng, Li, Li, Hui & Gan, W. Q., ApJ, 983, L41
11. Multiwavelength spectroscopic observations of a quiescent prominence [0]
    Xue, Jianchao, Zhang, Ping, Vial, Jean-Claude, Feng, Li, Zapiór, Maciej, Curdt, Werner, Li, Hui & Gan, Weiqun, A&A, 703, A145
12. Tests of Solar X-Ray Image Reconstruction: Study of X-Ray Imaging Algorithms and Reconstruction Parameters [0]
    Yu, Wenhui, Su, Yang, Li, Zhentong, Chen, Wei & Gan, Weiqun, Research in Astronomy and Astrophysics, 25, 035010
13. The possible "double-bang firecracker" during a solar prominence eruption [1]
    Zheng, Ruisheng, Liu, Yihan, Zhong, Ze, Zhang, Liang, Wang, Xiaoqian, Li, Jun, Wu, Zhao, Ying, Beili, Feng, Li, Su, Yang, Gan, Weiqun, Hou, Zhenyong, Song, Qiao, Xue, Zhike, Wang, Jingsong, Tian, Hui & Chen, Yao, Science China Physics, Mechanics, and Astronomy, 68, 279611

2024

1. Inflight Performance and Calibrations of the Lyman-Alpha Solar Telescope on Board the Advanced Space-Based Solar Observatory [15]
   Chen, Bo, Feng, Li, Zhang, Guang, Li, Hui, He, Lingping, Song, Kefei, Guo, Quanfeng, Li, Ying, Huang, Yu, Li, Jingwei, Zhao, Jie, Xue, Jianchao, Li, Gen, Shi, Guanglu, Song, Dechao, Lu, Lei, Ying, Beili, Wang, Haifeng, Dai, Shuang, Wang, Xiaodong, Mao, Shilei, Wang, Peng, Wu, Kun, Ren, Shuai, Sun, Liang, Yang, Xianwei, Xia, Mingyi, Zhang, Xiaoxue, Zhou, Peng, Tao, Chen, Liu, Yang, Yu, Sibo, Li, Xinkai, Li, Shuting, Zhang, Ping, Li, Qiao, Tian, Zhengyuan, Zhou, Yue, Tian, Jun, Shan, Jiahui, Liu, Xiaofeng, Jing, Zhichen & Gan, Weiqun, Solar Physics, 299, 118
2. On the Possible Mechanisms of the SEP Event and Electron Enhancement over the SEP Decay Phase on 2023 August 5 [0]
   Firoz, Kazi A., Li, Y. P. & Gan, W. Q., ApJ, 977, 248
3. Progress Report on ASO-S: 2022–2024 [1]
   GAN, Weiqun, Chinese Journal of Space Science, 44, 687
4. Prediction of Solar Energetic Events Impacting Space Weather Conditions: A Roadmap of Findings and Recommendations [0]
   Georgoulis, Manolis K., Yardley, Stephanie, Guerra, Jordan, Murray, Sophie, Ahmadzadeh, Azim, Anastasiadis, Anastasios, Angryk, Rafal A., Aydin, Berkay, Banerjee, Dipankar, Barnes, Graham, Bemporad, Alessandro, Benvenuto, Federico, Bloomfield, Shaun, Bobra, Monica, Campi, Cristina, Camporeale, Enrico, DeForest, Craig, Emslie, A. Gordon, Falconer, D. A., Feng, Li, Gan, Weiqun, Green, Lucie, Guastavino, Sabrina, Hapgood, Mike, Kempton, Dustin J., Kitiashvili, Irina, Kontogiannis, Ioannis, Korsos, Marianna, Leka, K. D., Massa, Paolo, Massone, Anna Maria, Nandi, Dibyendu, Nindos, Alexander, Papaioannou, Athanasios, Park, Sung-Hong, Patsourakos, Spiros, Piana, Michele, Rawafi, Nour, Sadykov, Viacheslav, Toriumi, Shin, Vourlidas, Angelos, Wang, Haimin, Wang, Jason, Whitman, Kathryn, Yan, Yihua & Zhukov, Andrei, 45th COSPAR Scientific Assembly, 45, p. 2903
5. High-Resolution Observation of Blowout Jets Regulated by Sunspot Rotation [6]
   Gou, Tingyu, Liu, Rui, Su, Yang, Veronig, Astrid M., Pan, Hanya, Luo, Runbin & Gan, Weiqun, Solar Physics, 299, 99
6. Science Operation and Data Analysis Center of the Advanced Space-Based Solar Observatory (ASO-S) Mission [0]
   Huang, Yu, Li, Youping, Liu, Suo, Su, Jiangtao, Feng, Li, Li, Ying, Su, Yang, Chen, Wei, Li, Dong, Lei, Shijun, Su, Yingna, Ge, Yunyi, Lu, Lei, Li, Jingwei, Li, Hui & Gan, Weiqun, Solar Physics, 299, 135
7. A Statistical Study of Solar White-Light Flares Observed by the White-Light Solar Telescope of the Lyman-Alpha Solar Telescope on the Advanced Space-Based Solar Observatory (ASO-S/LST/WST) at 360 nm [23]
   Jing, Zhichen, Li, Ying, Feng, Li, Li, Hui, Huang, Yu, Li, Youping, Su, Yang, Chen, Wei, Tian, Jun, Song, Dechao, Li, Jingwei, Xue, Jianchao, Zhao, Jie, Lu, Lei, Ying, Beili, Zhang, Ping, Su, Yingna, Zhang, Qingmin, Li, Dong, Ge, Yunyi, Li, Shuting, Li, Qiao, Li, Gen, Liu, Xiaofeng, Shi, Guanglu, Shan, Jiahui, Tian, Zhengyuan, Zhou, Yue & Gan, Weiqun, Solar Physics, 299, 11
8. Spectral and Imaging Observations of a C2.3 White-Light Flare from the Advanced Space-Based Solar Observatory (ASO-S) and the Chinese HαSolar Explorer (CHASE) [2]
   Li, Qiao, Li, Ying, Su, Yang, Song, Dechao, Li, Hui, Feng, Li, Huang, Yu, Li, Youping, Li, Jingwei, Zhao, Jie, Lu, Lei, Ying, Beili, Xue, Jianchao, Zhang, Ping, Tian, Jun, Liu, Xiaofeng, Li, Gen, Jing, Zhichen, Li, Shuting, Shi, Guanglu, Tian, Zhengyuan, Chen, Wei, Su, Yingna, Zhang, Qingmin, Li, Dong, Ge, Yunyi, Shan, Jiahui, Zhou, Yue, Lei, Shijun & Gan, Weiqun, Solar Physics, 299, 73
9. Carrington Maps in H I Lyα and Their Relationships with Extreme-ultraviolet and Magnetic-field Maps [3]
   Li, Shuting, Feng, Li, Ying, Beili, Lu, Lei, Ji, Kaifan, Li, Ying, Shi, Guanglu, Li, Hui, Huang, Yu & Gan, Weiqun, ApJ, 969, L16
10. Various Features of the X-class White-light Flares in Super Active Region NOAA 13664 [17]
    Li, Ying, Liu, Xiaofeng, Jing, Zhichen, Chen, Wei, Li, Qiao, Su, Yang, Song, De-Chao, Ding, M. D., Feng, Li, Li, Hui & Gan, Weiqun, ApJ, 972, L1
11. The White-light Emissions in Two X-class Flares Observed by ASO-S and CHASE [10]
    Li, Ying, Jing, Zhichen, Song, De-Chao, Li, Qiao, Tian, Jun, Liu, Xiaofeng, Wang, Ya, Ding, M. D., Battaglia, Andrea Francesco, Feng, Li, Li, Hui & Gan, Weiqun, ApJ, 963, L3
12. Automatic Solar Flare Detection Using the Solar Disk Imager Onboard the ASO-S Mission [1]
    Lu, Lei, Tian, Zhengyuan, Feng, Li, Shan, Jiahui, Li, Hui, Su, Yang, Li, Ying, Huang, Yu, Li, Youping, Li, Jingwei, Zhao, Jie, Ying, Beili, Xue, Jianchao, Zhang, Ping, Song, Dechao, Li, Shuting, Shi, Guanglu, Su, Yingna, Zhang, Qingmin, Ge, Yunyi, Chen, Bo, Li, Qiao, Li, Gen, Zhou, Yue, Tian, Jun, Liu, Xiaofeng, Jing, Zhichen, Gan, Weiqun, Song, Kefei, He, Lingping & Lei, Shijun, Solar Physics, 299, 72
13. Kink-and-Disconnection Failed Eruption in 3D [2]
    Mrozek, Tomasz, Li, Zhentong, Karlický, Marian, Chrysaphi, Nicolina, Su, Yang, Chen, Wei & Gan, Weiqun, Solar Physics, 299, 81
14. Asymmetric Hard X-ray Radiation of Two Ribbons in a Thermal-Dominated C-Class Flare [2]
    Shi, Guanglu, Feng, Li, Chen, Jun, Ying, Beili, Li, Shuting, Li, Qiao, Li, Hui, Li, Ying, Ji, Kaifan, Huang, Yu, Li, Youping, Li, Jingwei, Zhao, Jie, Lu, Lei, Xue, Jianchao, Zhang, Ping, Song, Dechao, Tian, Zhengyuan, Su, Yingna, Zhang, Qingmin, Ge, Yunyi, Shan, Jiahui, Zhou, Yue, Tian, Jun, Li, Gen, Liu, Xiaofeng, Jing, Zhichen, Lei, Shijun & Gan, Weiqun, Solar Physics, 299, 104
15. Refinement of Global Coronal and Interplanetary Magnetic Field Extrapolations Constrained by Remote-sensing and In Situ Observations at the Solar Minimum [4]
    Shi, Guanglu, Feng, Li, Ying, Beili, Li, Shuting & Gan, Weiqun, ApJ, 970, 131
16. The Tests and Calibrations of the Hard X-ray Imager Aboard ASO-S [14]
    Su, Yang, Zhang, Zhe, Chen, Wei, Chen, Dengyi, Yu, Fu, Hu, Yiming, Zhang, Yan, Xia, Fanxiaoyu, Chen, Changxue, Li, Zhentong, Jiang, Xiankai, Huang, Yu, Zhang, Yongqiang, Liu, Wei, Ma, Tao, Li, Dong, Yu, Wenhui, Li, Youping, Cai, Mingsheng, Guo, Jianhua, Huang, Yongyi, Wang, Haoxiang, Liang, Yaoming, Ma, Miao, Wang, Jianping, Zhu, Shanshan, Tao, Jinyou, Yu, Jirui, Yang, Jianfeng, Wu, Jian & Gan, Weiqun, Solar Physics, 299, 153
17. Rising of Two Crossing Prominences and the Resulting Oscillations [1]
    Wei, Hengyuan, Huang, Zhenghua, Zhang, Qingmin, Li, Ying, Fu, Hui, Xiong, Ming, Xia, Lidong, Feng, Li, Li, Hui & Gan, Weiqun, Solar Physics, 299, 64
18. A New Solar Hard X-ray Image Reconstruction Algorithm for ASO-S/HXI Based on Deep Learning [1]
    Xia, Yuehan, Su, Yang, Liu, Hui, Yu, Wenhui, Li, Zhentong, Chen, Wei, Huang, Yu & Gan, Weiqun, Solar Physics, 299, 158
19. Association Between a Failed Prominence Eruption and the Drainage of Mass from Another Prominence [4]
    Xue, Jian-chao, Feng, Li, Li, Hui, Zhang, Ping, Chen, Jun, Shi, Guang-lu, Ji, Kai-fan, Qiu, Ye, Li, Chuan, Lu, Lei, Ying, Bei-li, Li, Ying, Huang, Yu, Li, You-ping, Li, Jing-wei, Zhao, Jie, Song, De-chao, Li, Shu-ting, Tian, Zheng-yuan, Su, Ying-na, Zhang, Qing-min, Ge, Yun-yi, Shan, Jia-hui, Li, Qiao, Li, Gen, Zhou, Yue, Tian, Jun, Liu, Xiao-feng, Jing, Zhi-chen, Chen, Bo, Song, Ke-fei, He, Ling-ping, Lei, Shi-jun & Gan, Wei-qun, Solar Physics, 299, 89
20. Parameter Effects on the Total Intensity of H I Lyα Line for a Modeled Coronal Mass Ejection and Its Driven Shock [1]
    Ying, Beili, Shi, Guanglu, Feng, Li, Lu, Lei, Xue, Jianchao, Li, Shuting, Gan, Weiqun & Li, Hui, Solar Physics, 299, 92
21. Source Region of the Solar Wind: Statistics of the Doppler Velocities at the Chromosphere [1]
    Yu, Fu, Rao, Shihao, Zhao, Jie, Li, Chuan, Su, Yang, Zhao, Jinsong, Qiu, Ye, Ding, Mingde, Fang, Cheng, Li, Hui & Gan, Weiqun, ApJ, 968, L20

2023

1. The Advanced Space-Based Solar Observatory (ASO-S) [95]
   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
2. 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
3. Lyα Emission Enhancement Associated with Soft X-Ray Microflares [1]
   Tian, Zheng-Yuan, Feng, Li, Lu, Lei, Xia, Fan-Xiaoyu, Su, Yang, Gan, Wei-Qun, Li, Hui & Zhou, Yue, Research in Astronomy and Astrophysics, 23, 065011
4. Strategic Study for the Development of Solar Physics in Space [0]
   Yan, Yi-Hua, Deng, Yuan-Yong, Gan, Wei-Qun, Ding, Ming-De, Tian, Hui & Zhu, Xiao-Shuai, Chinese Astronomy and Astrophysics, 47, 447
5. 空间太阳物理学科发展战略研究 [0]
   Yan, Yihua, Deng, Yuanyong, Gan, Weiqun, Ding, Mingde, Tian, Hui & Zhu, Xiaoshuai, Chinese Journal of Space Science, 43, 199
6. Is There a Dynamic Difference between Stealthy and Standard Coronal Mass Ejections? [4]
   Ying, Beili, Bemporad, Alessandro, Feng, Li, Nitta, Nariaki V. & Gan, Weiqun, ApJ, 942, 3

2022

1. Understand the solar wind in the inner corona with the Lyman-alpha Solar Telescope aboard ASO-S [0]
   Feng, Li, Ying, Beili, Lu, Lei, Shi, Guanglu, Zhao, Jie, Gan, Weiqun & Li, Hui, 44th COSPAR Scientific Assembly. Held 16-24 July, 44, p. 1329
2. Duration and Fluence of Major Solar Energetic Particle (SEP) Events [6]
   Firoz, Kazi A., Gan, W. Q., Li, Y. P., Rodríguez-Pacheco, J. & Dorman, L. I., Solar Physics, 297, 71
3. Space Solar Physics in China: 2020–2022 [0]
   GAN, Weiqun & FAN, Quanlin, Chinese Journal of Space Science, 42, 608
4. Progress Report on ASO-S [3]
   GAN, Weiqun, Chinese Journal of Space Science, 42, 565
5. China's First Comprehensive Space Solar Observatory [6]
   Gan, W. Q., Zhu, C., Chen, B. & Huang, Y., Acta Astronomica Sinica, 63, 60
6. A Chinese solar observatory in space [21]
   Gan, W. Q., Feng, L. & Su, Y., Nature Astronomy, 6, 165
7. The Lyα Emission in a C1.4 Solar Flare Observed by the Extreme Ultraviolet Imager aboard Solar Orbiter [4]
   Li, Y., Li, Qiao, Song, De-Chao, Battaglia, Andrea Francesco, Xiao, Hualin, Krucker, Säm, Schühle, Udo, Li, Hui, Gan, Weiqun & Ding, M. D., ApJ, 936, 142
8. Detailed Thermal and Nonthermal Processes in an A-class Microflare [13]
   Li, Zhentong, Su, Yang, Veronig, Astrid M., Kong, Shuting, Gan, Weiqun & Chen, Wei, ApJ, 930, 147
9. Spatially Resolved Moving Radio Burst Associated with an EUV Wave [4]
   Lu, Lei, Feng, Li & Gan, Weiqun, ApJ, 931, L8
10. Observational Signatures of Tearing Instability in the Current Sheet of a Solar Flare [16]
    Lu, Lei, Feng, Li, Warmuth, Alexander, Veronig, Astrid M., Huang, Jing, Liu, Siming, Gan, Weiqun, Ning, Zongjun, Ying, Beili & Gao, Guannan, ApJ, 924, L7
11. The Hard X-ray Imager (HXI) on the Advanced Space-based Solar Observatory (ASO-S) [3]
    Su, Yang, Zhang, Zhe, Gan, Weiqun, Wu, Jian & Jiang, Xiankai, Handbook of X-ray and Gamma-ray Astrophysics (Editors: Bambi, Cosimo & Sangangelo, Andrea), p.88
12. Plasma Heating and Nanoflare Caused by Slow-mode Wave in a Coronal Loop [11]
    Xia, Fanxiaoyu, Wang, Tongjiang, Su, Yang, Zhao, Jie, Zhang, Qingmin, Veronig, Astrid M. & Gan, Weiqun, ApJ, 936, L13
13. Three-dimensional analyses of an aspherical coronal mass ejection and its driven shock [7]
    Ying, Beili, Feng, Li, Inhester, Bernd, Mierla, Marilena, Gan, Weiqun, Lu, Lei & Li, Shuting, A&A, 660, A23
14. A Study of the Possible Mechanism of the Ground Level Enhancement on 28 October 2021 [3]
    Zhang, YunFeng, Firoz, Kazi A., Gan, WeiQun, Li, YouPing & Jia, HuanYu, Solar Physics, 297, 155
15. Synthetic Lyman-α emissions for the coronagraph aboard the ASO-S mission. I. An eruptive prominence-cavity system [7]
    Zhao, J., Zhang, P., Gibson, S. E., Fan, Y., Feng, L., Yu, F., Li, H. & Gan, W. Q., A&A, 665, A39

2021

1. Solar Prominence Bubble and Plumes Caused By an Eruptive Magnetic Flux Rope [7]
   Chen, Changxue, Su, Yang, Xue, Jianchao, Gan, Weiqun & Huang, Yu, ApJ, 923, L10
2. 40 Years of Space Solar Physics in China [3]
   Gan, Weiqun, Chang, Jin & Ma, Yuqian, Chinese Journal of Space Science, 41, 76
3. Analysis of Type II and Type III Radio Bursts Associated with SEPs from Non-Interacting/Interacting Radio-Loud CMEs [5]
   Kalaivani, P. Pappa, Prakash, O., Shanmugaraju, A., Feng, Li, Lu, Lei, Gan, Weigun & Michalek, G., Astrophysics, 64, 327
4. Detection of Flare Multiperiodic Pulsations in Mid-ultraviolet Balmer Continuum, Lyα, Hard X-Ray, and Radio Emissions Simultaneously [32]
   Li, Dong, Ge, Mingyu, Dominique, Marie, Zhao, Haisheng, Li, Gang, Li, Xiaobo, Zhang, Shuangnan, Lu, Fangjun, Gan, Weiqun & Ning, Zongjun, ApJ, 921, 179
5. Catalog and Statistical Examinations of Lyα Solar Flares from GOES/EUVS-E Measurements [11]
   Lu, Lei, Feng, Li, Li, Dong, Ying, Beili, Li, Hui, Gan, Weiqun, Li, Youping & Zhou, Jiujiu, ApJS, 253, 29
6. Quasi-Periodic Pulsations Detected in Ly α and Nonthermal Emissions During Solar Flares [13]
   Lu, Lei, Li, Dong, Ning, Zongjun, Feng, Li & Gan, Weiqun, Solar Physics, 296, 130
7. Multiwavelength and Dual-perspective Observations of Eruption and Untwisting of Two Homologous Magnetic Flux Ropes [1]
   Song, De-Chao, Li, Y., Su, Y., Ding, M. D. & Gan, W. Q., ApJ, 922, 238
8. Detection of Energy Cutoffs in Flare-accelerated Electrons [12]
   Xia, Fanxiaoyu, Su, Yang, Wang, Wen, Wang, Linghua, Warmuth, Alexander, Gan, Weiqun & Li, Youping, ApJ, 908, 111
9. Statistical Studies on Modified Neupert Effect [2]
   Yu, Wen-hui, Li, You-ping & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 45, 82

2020

1. Tests and Analysis of the Arrangement Configurations for ASO-S/HXI Grids and Their Effect on Imaging [4]
   Chen, W., Su, Y., Zhang, Z., Li, Y. P., Gan, W. Q., Wu, J. & Li, Z. T., Acta Astronomica Sinica, 61, 41
2. A Spectroscopic Method Based on the Shapes of Nuclear Deexcitation γ-Ray Lines in Solar Flares [3]
   Chen, Wei & Gan, W. Q., ApJ, 895, 8
3. Three-Dimensional Reconstructions of Coronal Wave Surfaces Using a New Mask-Fitting Method [11]
   Feng, Li, Lu, Lei, Inhester, Bernd, Plowman, Joseph, Ying, Beili, Mierla, Marilena, West, Matthew J. & Gan, Weiqun, Solar Physics, 295, 141
4. Space Weather Related to Solar Eruptions with the ASO-S Mission [7]
   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
5. Space Solar Physics in China [2]
   GAN, Weiqun, Chinese Journal of Space Science, 40, 726
6. Status of the Advanced Space-based Solar Observatory [5]
   GAN, Weiqun, Chinese Journal of Space Science, 40, 704
7. ASO-S Specical Issue in Chinese: Preface [1]
   Huang, Y., Chen, P. F. & Gan, W. Q., Acta Astronomica Sinica, 61, 32
8. Quasi-periodic Pulsation Detected in Lyα Emission During Solar Flares [27]
   Li, Dong, Lu, Lei, Ning, Zongjun, Feng, Li, Gan, Weiqun & Li, Hui, ApJ, 893, 7
9. The Trigger and Termination Scheme for the Event Mode of the Lyman-alpha Solar Telescope (LST) Onboard the ASO-S Mission [7]
   Lu, L., Li, H., Huang, Y., Feng, L., Zhu, B., Wang, P., Song, D. C. & Gan, W. Q., Acta Astronomica Sinica, 61, 38
10. The Trigger and Termination Scheme for the Event Mode of the Lyman-alpha Solar Telescope (LST) onboard the ASO-S Mission [1]
    Lu, Lei, Li, Hui, Huang, Yu, Feng, Li, Zhu, Bo, Wang, Peng, Song, De-chao & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 44, 490
11. Automatic Coronagraph Image Classification with Machine Learning Methods [1]
    Shan, J. H., Feng, L., Yuan, H. Q., Zhang, Y., Zhong, X., Gan, W. Q., Li, H. & Huang, Y., Acta Astronomica Sinica, 61, 45
12. Automatic Coronagraph Image Classification with Machine Learning Methods [6]
    Shan, Jia-hui, Feng, Li, Yuan, Han-qing, Zhang, Yan, Zhong, Xian, Gan, Wei-qun, Li, Hui & Huang, Yu, Chinese Astronomy and Astrophysics, 44, 507
13. Monitoring and research of high-energy solar flare emissions with GECAM [6]
    Su, Yang, Peng, Wenxi, Chen, Wei, Xiong, Shaolin, Gan, Weiqun, Li, Youping & Zhu, Yue, Scientia Sinica Physica, Mechanica & Astronomica, 50, 129505
14. Detection of Polarity Inversion Line Positions of Active Magnetic Field in Solar Magnetograms Based on Support Vector Machine [3]
    Wang, Q., Zheng, S., Deng, Y. Y., Huang, Y., Li, H., Gan, W. Q. & Su, J. T., Acta Astronomica Sinica, 61, 43
15. Extensive Study of a Coronal Mass Ejection with UV and White-light Coronagraphs: The Need for Multiwavelength Observations [11]
    Ying, Beili, Bemporad, Alessandro, Feng, Li, Lu, Lei, Gan, Weiqun & Li, Hui, ApJ, 899, 12
16. Statistical Studies on Modified Neupert Effect [1]
    Yu, W. H., Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 61, 53
17. Density Distribution of Photospheric Vertical Electric Currents in Flare-Active Regions of the Sun [6]
    Zimovets, I. V., Nechaeva, A. B., Sharykin, I. N. & Gan, W. Q., Astrophysics, 63, 408
18. Relationships between Photospheric Vertical Electric Currents and Hard X-Ray Sources in Solar Flares: Statistical Study [16]
    Zimovets, I. V., Sharykin, I. N. & Gan, W. Q., ApJ, 891, 138

2019

1. The Lyman-alpha Solar Telescope (LST) for the ASO-S mission - II. design of LST [52]
   Chen, Bo, Li, Hui, Song, Ke-Fei, Guo, Quan-Feng, Zhang, Pei-Jie, He, Ling-Ping, Dai, Shuang, Wang, Xiao-Dong, Wang, Hai-Feng, Liu, Chun-Long, Zhang, Hong-Ji, Zhang, Guang, Wang, Yunqi, Liu, Shi-Jie, Zhang, Hong-Xin, Liu, Lei, Mao, Shi-Lei, Liu, Yang, Peng, Jia-Hao, Wang, Peng, Sun, Liang, Liu, Yang, Han, Zhen-Wei, Wang, Yan-Long, Wu, Kun, Ding, Guang-Xing, Zhou, Peng, Zheng, Xin, Xia, Ming-Yi, Wu, Qing-Wen, Xie, Jin-Jiang, Chen, Ya, Song, Shu-Mei, Wang, Hong, Zhu, Bo, Chu, Chang-Bo, Yang, Wen-Gang, Feng, Li, Huang, Yu, Gan, Wei-Qun, Li, Ying, Li, Jing-Wei, Lu, Lei, Xue, Jian-Chao, Ying, Bei-Li, Sun, Ming-Zhe, Zhu, Cheng, Bao, Wei-Min, Deng, Lei & Yin, Zeng-Shan, Research in Astronomy and Astrophysics, 19, 159
2. On the error analyses of polarization measurements of the white-light coronagraph aboard ASO-S [11]
   Feng, Li, Li, Hui, Inhester, Bernd, Chen, Bo, Ying, Bei-Li, Lu, Lei & Gan, Weiqun, Research in Astronomy and Astrophysics, 19, 059
3. The Lyman-alpha Solar Telescope (LST) for the ASO-S mission - III. data and potential diagnostics [66]
   Feng, Li, Li, Hui, Chen, Bo, Li, Ying, Susino, Roberto, Huang, Yu, Lu, Lei, Ying, Bei-Li, Li, Jing-Wei, Xue, Jian-Chao, Yang, Yu-Tong, Hong, Jie, Li, Jian-Ping, Zhao, Jie, Gan, Wei-Qun & Zhang, Yan, Research in Astronomy and Astrophysics, 19, 162
4. On the Possible Mechanism of GLE Initiation [17]
   Firoz, K. A., Gan, W. Q., Li, Y. P., Rodríguez-Pacheco, J. & Kudela, K., ApJ, 872, 178
5. On the Relation between Flare and CME during GLE-SEP and Non-GLE-SEP Events [9]
   Firoz, K. A., Gan, W. Q., Moon, Y.-J., Rodríguez-Pacheco, J. & Li, Y. P., ApJ, 883, 91
6. Advanced Space-based Solar Observatory (ASO-S): an overview [180]
   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
7. Prospect for space solar physics in 2016-2030 [13]
   Gan, Weiqun, Yan, Yihua & Huang, Yu,, Scientia Sinica Physica, Mechanica & Astronomica, 49, 059602
8. The Science Operations and Data Center (SODC) of the ASO-S mission [23]
   Huang, Yu, Li, Hui, Gan, Wei-Qun, Li, You-Ping, Su, Jiang-Tao, Deng, Yuan-Yong, Feng, Li, Su, Yang, Chen, Wei, Lei, Shi-Jun, Li, Ying, Ge, Yun-Yi, Su, Ying-Na, Liu, Si-Ming, Zang, Jing-Jing, Xu, Zun-Lei, Bai, Xian-Yong & Li, Jing-Wei, Research in Astronomy and Astrophysics, 19, 164
9. Joint hard X-ray observations with ASO-S/HXI and SO/STIX [19]
   Krucker, Säm, Hurford, Gordon J., Su, Yang & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 19, 167
10. The Lyman-alpha Solar Telescope (LST) for the ASO-S mission — I. Scientific objectives and overview [93]
    Li, Hui, Chen, Bo, Feng, Li, Li, Ying, Huang, Yu, Li, Jing-Wei, Lu, Lei, Xue, Jian-Chao, Ying, Bei-Li, Zhao, Jie, Yang, Yu-Tong, Gan, Wei-Qun, Fang, Cheng, Song, Ke-Fei, Wang, Hong, Guo, Quan-Feng, He, Ling-Ping, Zhu, Bo, Zhu, Cheng, Deng, Lei, Bao, Hai-Chao, Cao, Cai-Xia & Yang, Zhong-Guang, Research in Astronomy and Astrophysics, 19, 158
11. Different Signatures of Chromospheric Evaporation in Two Solar Flares Observed with IRIS [31]
    Li, Y., Ding, M. D., Hong, J., Li, H. & Gan, W. Q., ApJ, 879, 30
12. Spectroscopic and Stereoscopic Observations of the Solar Jets [20]
    Lu, Lei, Feng, Li, Li, Ying, Li, Dong, Ning, Zongjun & Gan, Weiqun, ApJ, 887, 154
13. A study on radio-loud interacting/non-interacting CMEs-associated SEPs and solar flares [3]
    Pappa Kalaivani, P., Prakash, O., Feng, Li, Shanmugaraju, A., Ding, Liu-Guan, Lu, Lei & Gan, Weiqun, Advances in Space Research, 63, 3390
14. Data reduction and calibration of the FMG onboard ASO-S [32]
    Su, Jiang-Tao, Bai, Xian-Yong, Chen, Jie, Guo, Jing-Jing, Liu, Suo, Wang, Xiao-Fan, Xu, Hai-Qing, Yang, Xiao, Song, Yong-Liang, Deng, Yuan-Yong, Ji, Kai-Fan, Deng, Lei, Huang, Yu, Li, Hui & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 19, 161
15. Simulations and software development for the Hard X-ray Imager onboard ASO-S [66]
    Su, Yang, Liu, Wei, Li, You-Ping, Zhang, Zhe, Hurford, Gordon J., Chen, Wei, Huang, Yu, Li, Zhen-Tong, Jiang, Xian-Kai, Wang, Hao-Xiang, Xia, Fan-Xiao-Yu, Chen, Chang-Xue, Yu, Wen-Hui, Yu, Fu, Wu, Jian & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 19, 163
16. A New Automatic Tool for CME Detection and Tracking with Machine-learning Techniques [21]
    Wang, Pengyu, Zhang, Yan, Feng, Li, Yuan, Hanqing, Gan, Yuan, Li, Shuting, Lu, Lei, Ying, Beili, Gan, Weiqun & Li, Hui, ApJS, 244, 9
17. First Determination of 2D Speed Distribution within the Bodies of Coronal Mass Ejections with Cross-correlation Analysis [17]
    Ying, Beili, Bemporad, Alessandro, Giordano, Silvio, Pagano, Paolo, Feng, Li, Lu, Lei, Li, Hui & Gan, Weiqun, ApJ, 880, 41
18. Hard X-ray Imager (HXI) onboard the ASO-S mission [98]
    Zhang, Zhe, Chen, Deng-Yi, Wu, Jian, Chang, Jin, Hu, Yi-Ming, Su, Yang, Zhang, Yan, Wang, Jian-Ping, Liang, Yao-Ming, Ma, Tao, Guo, Jian-Hua, Cai, Ming-Sheng, Zhang, Yong-Qiang, Huang, Yong-Yi, Peng, Xiao-Yan, Tang, Zong-Bin, Zhao, Xuan, Zhou, Hong-He, Wang, Lian-Guo, Song, Jing-Xing, Ma, Miao, Xu, Guang-Zhou, Yang, Jian-Feng, Lu, Di, He, Ying-Hong, Tao, Jin-You, Ma, Xiao-Long, Lv, Bao-Gang, Bai, Yan-Ping, Cao, Cai-Xia, Huang, Yu & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 19, 160
19. Simulating the Solar Corona in the Forbidden and Permitted Lines with Forward Modeling. I. Saturated and Unsaturated Hanle Regimes [18]
    Zhao, Jie, Gibson, Sarah E., Fineschi, Silvano, Susino, Roberto, Casini, Roberto, Li, Hui & Gan, Weiqun, ApJ, 883, 55
20. Forward Modeling of SDO/AIA and X-Ray Emission from a Simulated Flux Rope Ejection [26]
    Zhao, Xiaozhou, Xia, Chun, Van Doorsselaere, Tom, Keppens, Rony & Gan, Weiqun, ApJ, 872, 190

2018

1. Space Solar Physics in China [6]
   GAN, Weiqun & FAN, Quanlin, Chinese Journal of Space Science, 38, 662
2. Spectroscopic Observations of a Current Sheet in a Solar Flare [62]
   Li, Y., Xue, J. C., Ding, M. D., Cheng, X., Su, Y., Feng, L., Hong, J., Li, H. & Gan, W. Q., ApJ, 853, L15
3. Determination of Differential Emission Measure from Solar Extreme Ultraviolet Images [126]
   Su, Yang, Veronig, Astrid M., Hannah, Iain G., Cheung, Mark C. M., Dennis, Brian R., Holman, Gordon D., Gan, Weiqun & Li, Youping, ApJ, 856, L17
4. Properties of a Small-scale Short-duration Solar Eruption with a Driven Shock [12]
   Ying, Beili, Feng, Li, Lu, Lei, Zhang, Jie, Magdalenic, Jasmina, Su, Yingna, Su, Yang & Gan, Weiqun, ApJ, 856, 24

2017

1. The DArk Matter Particle Explorer mission [264]
   Chang, J., Ambrosi, G., An, Q., Asfandiyarov, R., Azzarello, P., Bernardini, P., Bertucci, B., Cai, M. S., Caragiulo, M., Chen, D. Y., Chen, H. F., Chen, J. L., Chen, W., Cui, M. Y., Cui, T. S., D'Amone, A., De Benedittis, A., De Mitri, I., Di Santo, M., Dong, J. N., Dong, T. K., Dong, Y. F., Dong, Z. X., Donvito, G., Droz, D., Duan, K. K., Duan, J. L., Duranti, M., D'Urso, D., Fan, R. R., Fan, Y. Z., Fang, F., Feng, C. Q., Feng, L., Fusco, P., Gallo, V., Gan, F. J., Gan, W. Q., Gao, M., Gao, S. S., Gargano, F., Gong, K., Gong, Y. Z., Guo, J. H., Hu, Y. M., Huang, G. S., Huang, Y. Y., Ionica, M., Jiang, D., Jiang, W., Jin, X., Kong, J., Lei, S. J., Li, S., Li, X., Li, W. L., Li, Y., Liang, Y. F., Liang, Y. M., Liao, N. H., Liu, Q. Z., Liu, H., Liu, J., Liu, S. B., Liu, Q. Z., Liu, W. Q., Liu, Y., Loparco, F., Lü, J., Ma, M., Ma, P. X., Ma, S. Y., Ma, T., Ma, X. Q., Ma, X. Y., Marsella, G., Mazziotta, M. N., Mo, D., Miao, T. T., Niu, X. Y., Pohl, M., Peng, X. Y., Peng, W. X., Qiao, R., Rao, J. N., Salinas, M. M., Shang, G. Z., Shen, W. H., Shen, Z. Q., Shen, Z. T., Song, J. X., Su, H., Su, M., Sun, Z. Y., Surdo, A., Teng, X. J., Tian, X. B., Tykhonov, A., Vagelli, V., Vitillo, S., Wang, C., Wang, Chi, Wang, H., Wang, H. Y., Wang, J. Z., Wang, L. G., Wang, Q., Wang, S., Wang, X. H., Wang, X. L., Wang, Y. F., Wang, Y. P., Wang, Y. Z., Wen, S. C., Wang, Z. M., Wei, D. M., Wei, J. J., Wei, Y. F., Wu, D., Wu, J., Wu, S. S., Wu, X., Xi, K., Xia, Z. Q., Xin, Y. L., Xu, H. T., Xu, Z. L., Xu, Z. Z., Xue, G. F., Yang, H. B., Yang, J., Yang, P., Yang, Y. Q., Yang, Z. L., Yao, H. J., Yu, Y. H., Yuan, Q., Yue, C., Zang, J. J., Zhang, C., Zhang, D. L., Zhang, F., Zhang, J. B., Zhang, J. Y., Zhang, J. Z., Zhang, L., Zhang, P. F., Zhang, S. X., Zhang, W. Z., Zhang, Y., Zhang, Y. J., Zhang, Y. Q., Zhang, Y. L., Zhang, Y. P., Zhang, Z., Zhang, Z. Y., Zhao, H., Zhao, H. Y., Zhao, X. F., Zhou, C. Y., Zhou, Y., Zhu, X., Zhu, Y. & Zimmer, S., Astroparticle Physics, 95, 6
2. Shapes of ²⁰Ne de-excitation line in solar flare [1]
   Chen, Wei & Gan, Wei Qun, Astrophysics and Space Science, 362, 150
3. On the time evolution of brightness, volume and height of a coronal source in an M-class flare [4]
   Firoz, Kazi A., Gan, W. Q., Li, Y. P., Rodríguez-Pacheco, J. & Su, Y., Astrophysics and Space Science, 362, 113
4. Spectroscopic Observations of Magnetic Reconnection and Chromospheric Evaporation in an X-shaped Solar Flare [31]
   Li, Y., Kelly, M., Ding, M. D., Qiu, J., Zhu, X. S. & Gan, W. Q., ApJ, 848, 118
5. Characteristics of events with metric-to-decahectometric type II radio bursts associated with CMEs and flares in relation to SEP events [10]
   Prakash, O., Feng, Li, Michalek, G., Gan, Weiqun, Lu, Lei, Shanmugaraju, A. & Umapathy, S., Astrophysics and Space Science, 362, 56
6. Formation and Initiation of Erupting Flux Rope and Embedded Filament Driven by Photospheric Converging Motion [44]
   Zhao, Xiaozhou, Xia, Chun, Keppens, Rony & Gan, Weiqun, ApJ, 841, 106

2016

1. Space Solar Physics in China:2014—2016 [5]
   GAN, Weiqun, Chinese Journal of Space Science, 36, 636
2. On the power-law distributions of X-ray fluxes from solar flares observed with GOES [6]
   Li, You-Ping, Feng, Li, Zhang, Ping, Liu, Si-Ming & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 16, 161
3. Solar flares with similar soft but different hard X-ray emissions: case and statistical studies [3]
   Sharykin, Ivan N., Struminsky, Alexei B., Zimovets, Ivan V. & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 16, 5
4. Electron Acceleration by Cascading Reconnection in the Solar Corona. II. Resistive Electric Field Effects [30]
   Zhou, X., Büchner, J., Bárta, M., Gan, W. & Liu, S., ApJ, 827, 94

2015

1. Why Does the Apparent Mass of a Coronal Mass Ejection Increase? [33]
   Feng, Li, Wang, Yuming, Shen, Fang, Shen, Chenglong, Inhester, Bernd, Lu, Lei & Gan, Weiqun, ApJ, 812, 70
2. Radial Flow Pattern of a Slow Coronal Mass Ejection [14]
   Feng, Li, Inhester, Bernd & Gan, Weiqun, ApJ, 805, 113
3. An Interpretation of a Possible Mechanism for the First Ground-Level Enhancement of Solar Cycle 24 [6]
   Firoz, K. A., Gan, W. Q., Li, Y. P. & Rodríguez-Pacheco, J., Solar Physics, 290, 613
4. ASO-S: Advanced Space-based Solar Observatory [19]
   Gan, Weiqun, Deng, Yuanyong, Li, Hui, Wu, Jian, Zhang, Haiying, Chang, Jin, Chen, Changya, Zhang, Zhiqiang, Chen, Bo, Feng, Li, Guo, Jianhua, Hu, Yiming, Huang, Yu, Li, Zhaohui, Peng, Yuming, Wang, Dongguang, Wang, Hong, Wang, Jianing, Wen, Desheng, Wu, Zhen, Zhang, Zhe & Zhao, Erxin, Solar Physics and Space Weather Instrumentation VI (Editors: Fineschi, Silvano & Fennelly, Judy), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 9604, p. 96040T
5. Division II: Commission 12: Solar Radiation and Structure [0]
   Kosovichev, Alexander, Cauzzi, Gianna, Martinez Pillet, Valentin, Asplund, Martin, Brandenburg, Axel, Chou, Dean-Yi, Christensen-Dalsgaard, Jorgen, Gan, Weiqun, Kuznetsov, Vladimir D., Rovira, Marta G., Shchukina, Nataliya & Venkatakrishnan, P., Transactions of the International Astronomical Union, Series B, 10, 109
6. Study of a solar flare on 2005 August 22 observed in hard X-rays and microwaves [5]
   Liu, Zhong-Yin, Li, You-Ping, Gan, Wei-Qun & Firoz, Kazi A., Research in Astronomy and Astrophysics, 15, 64-76
7. Observation of solar high energy gamma and X-ray emission and solar energetic particles [0]
   Struminsky, A. & Gan, W., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012081
8. Electron Acceleration by Cascading Reconnection in the Solar Corona. I. Magnetic Gradient and Curvature Drift Effects [44]
   Zhou, X., Büchner, J., Bárta, M., Gan, W. & Liu, S., ApJ, 815, 6

2014

1. An Interpretation of GLE71 Concurrent CME-driven Shock Wave [10]
   Firoz, Kazi A., Zhang, Q. M., Gan, W. Q., Li, Y. P., Rodríguez-Pacheco, J., Moon, Y.-J., Kudela, K., Park, Y.-D. & Dorman, Lev I., ApJS, 213, 24
2. On the possible mechanism of the first ground level enhancement in cosmic ray intensity of solar cycle 24 [9]
   Firoz, Kazi A., Gan, W. Q., Li, Y. P. & Rodriguez-Pacheco, J., Astrophysics and Space Science, 350, 21
3. Space Solar Physics in 2012?2014 [4]
   Gan, Weiqun, Chinese Journal of Space Science, 34, 563
4. Solar Magnetized Tornadoes: Rotational Motion in a Tornado-like Prominence [58]
   Su, Yang, Gömöry, Peter, Veronig, Astrid, Temmer, Manuela, Wang, Tongjiang, Vanninathan, Kamalam, Gan, Weiqun & Li, YouPing, ApJ, 785, L2

2013

1. Kelvin-Helmholtz Instability of a Coronal Streamer [38]
   Feng, L., Inhester, B. & Gan, W. Q., ApJ, 774, 141
2. Magnetic Energy Partition between the Coronal Mass Ejection and Flare from AR 11283 [61]
   Feng, L., Wiegelmann, T., Su, Y., Inhester, B., Li, Y. P., Sun, X. D. & Gan, W. Q., ApJ, 765, 37
3. Polar jet kinetics and energetics analysed from STEREO/COR data [2]
   Feng, Li & Gan, Weiqun, Solar and Astrophysical Dynamos and Magnetic Activity (Editors: Kosovichev, Alexander G., de Gouveia Dal Pino, Elisabete & Yan, Yihua), IAU Symposium, 294, p. 549
4. The breakdown of the power-law frequency distributions for the hard X-ray peak count rates of solar flares [6]
   Li, You-Ping, Gan, Wei-Qun, Feng, Li, Liu, Si-Ming & Struminsky, A., Research in Astronomy and Astrophysics, 13, 1482-1492
5. Imaging coronal magnetic-field reconnection in a solar flare [218]
   Su, Yang, Veronig, Astrid M., Holman, Gordon D., Dennis, Brian R., Wang, Tongjiang, Temmer, Manuela & Gan, Weiqun, Nature Physics, 9, 489
6. Parameters of the flare and surrounding medium and their evolution during 20 January 2005 solar event [0]
   Troitskaia, E., Arkhangelskaja, I., Arkhangelsky, A. & Gan, W., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012204

2012

1. An Observational Study on Coronal Hard X-ray Sources in Flares [2]
   Bai, Wei-dong, Li, You-ping & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 36, 246
2. The effect of Compton scattering on gamma-ray spectra of the 2005 January 20 flare [3]
   Chen, Wei & Gan, Wei-Qun, Research in Astronomy and Astrophysics, 12, 1439
3. The Calculation of Solar Gamma-Rays by TALYS [2]
   Chen, Wei & Gan, Wei-Qun, Chinese Astronomy and Astrophysics, 36, 49
4. Particle kinetic analysis of a polar jet from SECCHI COR data [16]
   Feng, L., Inhester, B., de Patoul, J., Wiegelmann, T. & Gan, W. Q., A&A, 538, A34
5. Morphological Evolution of a Three-dimensional Coronal Mass Ejection Cloud Reconstructed from Three Viewpoints [54]
   Feng, L., Inhester, B., Wei, Y., Gan, W. Q., Zhang, T. L. & Wang, M. Y., ApJ, 751, 18
6. An Interpretation of the Possible Mechanisms of Two Ground-level Enhancement Events [25]
   Firoz, Kazi A., Gan, W. Q., Moon, Y.-J. & LI, C., ApJ, 758, 119
7. On the Frequency Distributions of Solar Soft X-ray Flares [2]
   Gan, W. Q., Li, Y. P. & Feng, L., EAS Publications Series (Editors: Faurobert, M., Fang, C. & Corbard, T.), EAS Publications Series, 55, p. 239
8. The past and future of space solar observations [10]
   Gan, WeiQun, Huang, Yu & Yan, YiHua, Scientia Sinica Physica, Mechanica & Astronomica, 42, 1274
9. Commission 12: Solar Radiation and Structure [0]
   Kosovichev, Alexander, Cauzzi, Gianna, Pillet, Valentin Martinez, Asplund, Martin, Brandenburg, Axel, Chou, Dean-Yi, Christensen-Dalsgaard, Jorgen, Gan, Weiqun, Kuznetsov, Vladimir D., Rovira, Marta G., Shchukina, Nataliya & Venkatakrishnan, P., Transactions of the International Astronomical Union, Series A, 7, 81
10. Statistical Analyses on Thermal Aspects of Solar Flares [22]
    Li, Y. P., Gan, W. Q. & Feng, L., ApJ, 747, 133
11. Particle acceleration and gamma rays in solar flares: Recent observations and new modeling [6]
    Miroshnichenko, L. I. & Gan, W. Q., Advances in Space Research, 50, 736
12. Solar Magnetized "Tornadoes:" Relation to Filaments [100]
    Su, Yang, Wang, Tongjiang, Veronig, Astrid, Temmer, Manuela & Gan, Weiqun, ApJ, 756, L41
13. China's Space Astronomy and Solar Physics in 2011-2012 [5]
    Zhang, Shuangnan, Yan, Yihua & Gan, Weiqun, Chinese Journal of Space Science, 32, 605

2011

1. An Observational Study on Coronal Hard X-ray Sources of Solar Flares [1]
   Bai, W. D., Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 52, 481
2. The Calculation of Solar Gamma-rays by TALYS [2]
   Chen, W. & Gan, W. Q., Acta Astronomica Sinica, 52, 219
3. On Integrated Hard X-Ray Broken-Up Spectra of Solar Flares [9]
   Li, Y. P. & Gan, W. Q., Solar Physics, 269, 59
4. Fast Calculation of Integration of Bremsstrahlung Radiation from Electrons with Power-law Distribution [0]
   Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 52, 208
5. Fast Calculation of Integration of Bremsstrahlung Radiation from Electrons with Power-law Distribution [1]
   Li, You-Ping & Gan, Wei-Qun, Chinese Astronomy and Astrophysics, 35, 397

2010

1. The periodic variation of 6.7 days for total solar radiation [3]
   Gan, W. Q. & Li, Y. P., Solar and Stellar Variability: Impact on Earth and Planets (Editors: Kosovichev, Alexander G., Andrei, Alexandre H. & Rozelot, Jean-Pierre), IAU Symposium, 264, p. 84
2. Space astronomy in China: 2008—2010 [6]
   Gan, Weiqun, Zhang, Shuangnan, Yan, Yihua & Chang, Jin, Chinese Journal of Space Science, 30, 424
3. Is the 3-D magnetic null point with a convective electric field an efficient particle accelerator? [24]
   Guo, J.-N., Büchner, J., Otto, A., Santos, J., Marsch, E. & Gan, W.-Q., A&A, 513, A73

2009

1. Stereoscopic Polar Plume Reconstructions from STEREO/SECCHI Images [29]
   Feng, L., Inhester, B., Solanki, S. K., Wilhelm, K., Wiegelmann, T., Podlipnik, B., Howard, R. A., Plunkett, S. P., Wuelser, J. P. & Gan, W. Q., ApJ, 700, 292
2. A Study of the Low Energy Cutoff of Nonthermal Electrons in RHESSI Flares [6]
   Han, Gang, Li, You-ping & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 33, 168
3. Double hard X-ray peaks in RHESSI flares as evidence of chromospheric evaporation and implications for modifying the Neupert effect [11]
   Li, You-Ping, Gan, Wei-Qun & Su, Yang, Research in Astronomy and Astrophysics, 9, 1155
4. Commission 12: Solar Radiation and Structure [0]
   Martínez Pillet, Valentin, Kosovichev, Alexander, Mariska, John T., Bogdan, Thomas J., Asplund, Martin, Cauzzi, Gianna, Christensen-Dalsgaard, Jørgen, Cram, Lawrence E., Gan, Weiqun, Gizon, Laurent, Heinzl, Petr, Rovira, Marta G. & Venkatakrishnan, P., Transactions of the International Astronomical Union, Series A, 4, 104
5. CALET Mission for the Observation of Cosmic Rays on the International Space Station [0]
   Tamura, Tadahisa, Torii, Shoji, Kasahara, Katsuaki, Okudaira, Osamu, Hasebe, Nobuyuki, Hareyama, Makoto, Miyajima, Hiromitsu, Miyaji, Takashi, Yamashita, Naoyuki, Ueno, Shiro, Saito, Yoshitaka, Takayanagi, Masahiro, Tomita, Hiroshi, Nishimura, Jun, Fuke, Hideyuki, Yamagami, Takamasa, Okuno, Shoji, Tateyama, Nobuto, Hibino, Kinya, Shiomi, Atsushi, Takita, Masato, Yuda, Toshinori, Shimizu, Yuki, Kakimoto, Fumio, Tsunesada, Yoshiki, Terasawa, Toshio, Kobayashi, Tadashi, Yoshida, Atsumasa, Yamaoka, Kazutaka, Katayose, Yusaku, Shibata, Makio, Yoshida, Kenji, Ichimura, Masaichi, Kuramata, Shuichi, Uchihori, Yukio, Kitamura, Hisashi, Murakami, Hiroyuki, Komori, Yoshiko, Mizutani, Kohei, Munakata, Kazuki, Streitmatter, Robert E., Mitchell, John W., Barbier, Louis M., Moissev, Alexander A., Krizmanic, John F., Case, Gary L., Cherry, Michael L., Guzik, T. G., Isbert, Joachim B., Wefel, John P., Binns, Walter R., Israel, Martin H., Krawzczynski, H. S., Ormes, Jonathan F., Marrocchesi, Pier S., Maestro, Paolo, Bagliesi, Maria G., Millucci, Vincenzo, Meucci, Mario, Bigongiari, Gabriele, Zei, Riccardo, Kim, Meyoung, Adriani, Oscar, Papini, Paolo, Bonechi, Lorenzo, Elena, Vannuccini, Morsani, Fabio, Ligabue, Franco, Chang, Jin, Gan, Weiqun, Yang, Ji, Ma, Yuqian, Wang, Huanyu & Chen, Guoming, Transactions of Space Technology Japan, 7, Ph_23

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
2. Millisecond radio spikes occurring on may 16 [4]
   Han, G., Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 49, 403
3. Observational Studies of the X-Ray Quasi-Periodic Oscillations of a Solar Flare [24]
   Li, Y. P. & Gan, W. Q., Solar Physics, 247, 77
4. On classification of RHESSI flares [4]
   Su, Yang, Gan, W. Q. & Li, Y. P., Advances in Space Research, 41, 988
5. The CALET Mission on International Space Station [0]
   Torii, S., Shimizu, Y., Kasahara, K., Hasebe, N., Hareyama, M., Kodaira, S., Okudaira, O., Yamashita, N., Miyazima, M., Miyaji, T., Tkayangai, M., Ueno, S., Tomida, H., Saito, Y., Fuke, H., Yamagami, T., Nishimura, J., Tamura, T., Tateyama, N., Hibino, K., Okuno, S., Shiomi, A., Takita, M., Yuda, T., Kakimoto, F., Tsunesada, Y., Terasawa, T., Kobayashi, T., Yoshida, A., Yamaoka, K., Katayose, Y., Shibata, M., Ichimura, M., Kuramata, S., Uchihori, Y., Kitamura, A., Yoshida, K., Murakami, H., Komori, Y., Mizutani, K., Munakata, K., Streitmatter, R. E., Mitchell, J. W., Barbier, L. M., Moiseev, A. A., Krizmanic, J. F., Ormes, J. F., Wefel, J. P., Case, G., Cherry, M. L., Guzik, T. G., Isbert, J. B., Binns, W. R., Israel, M. H., Krawczynski, H. S., Marrocchesi, P. S., Bigongiari, G., Batkov, K., Kim, M. Y., Bagliesi, M. G., Masestro, P., Millucci, V., Zei, R., Adriani, O., Papini, P., Vannuccini, E., Bonechi, L., Chang, J., Yan, J. & Gan, W., International Cosmic Ray Conference, International Cosmic Ray Conference, 2, p. 393
6. The CALET mission on the ISS [0]
   Torii, S., Hareyama, M., Hasebe, N., Kasahara, K., Kobayashi, S., Kodaira, S., Murakami, H., Ozawa, S., Udo, S., Yamashita, N., Ebisawa, K., Fuke, H., Nishimura, J., Saito, Y., Takayanagi, M., Tomida, H., Ueno, S., Yamagami, T., Hibino, K., Okuno, S., Tamura, T., Tateyama, N., Kobayashi, T., Kotani, T., Yamaoka, K., Yoshida, A., Shimizu, Y., Takita, M., Yuda, T., Katayose, Y., Shibata, M., Kamioka, E., Kubota, A., Yoshida, K., Ichimura, M., Kuramata, S., Tunesada, Y., Terasawa, T., Kitamura, H., Uchihori, Y., Komori, Y., Mizutani, K., Munakata, K., Shiomi, A., Mitchell, J. W., Ericsson, A. J., Hams, T., Krizmanic, J. F., Moissev, A. A., Sasaki, M., Ormes, J. F., Cherry, M. L., Guzik, T. G., Wefel, J. P., Binns, W. R., Israel, M. H., Krawczynski, H., Marrocchesi, P. S., Gagliesi, M. G., Bigongiari, G., Caldarone, A., Kim, M. Y., Cecchi, R., Maestro, P., Millucci, V., Zei, R., Avanzini, C., Lotadze, T., Messineo, A., Morsani, F., Adirani, O., Bonechi, L., Papini, P., Vannuccini, E., Chan, J., Gan, W., Lu, T., Ma, Y., Wang, H. & Chen, G., High Energy, Optical, and Infrared Detectors for Astronomy III (Editors: Dorn, David A. & Holland, Andrew D.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 7021, p. 702114
7. SMESE (SMall Explorer for Solar Eruptions): A microsatellite mission with combined solar payload [13]
   Vial, J.-C., Auchère, F., Chang, J., Fang, C., Gan, W. Q., Klein, K.-L., Prado, J.-Y., Rouesnel, F., Sémery, A., Trottet, G. & Wang, C., Advances in Space Research, 41, 183
8. The Calet Space Observatory for Jem-Ef on the International Space Station [0]
   Wefel, J. P., Torii, S., Shimizu, Y., Kasahara, K., Hasebe, N., Hareyama, M., Kodaira, S., Okudaira, O., Yamashita, N., Miyazima, M., Miyaji, T., Tkayanagi, M., Ueno, S., Tomida, H., Saito, Y., Fuke, H., Yamagami, T., Nishimura, J., Tamura, T., Tateyama, N., Hibino, K., Okuno, S., Shiomi, A., Takita, M., Yuda, T., Kakimoto, F., Tsunesada, Y., Terasawa, T., Kobayashi, T., Yoshida, A., Yamaoka, K., Katayose, Y., Shibata, M., Ichimura, M., Kuramata, S., Uchihori, Y., Kitamura, A., Yoshida, K., Murakami, H., Komori, Y., Mizutani, K., Munakata, K., Streitmatter, R. E., Mitchell, J. W., Barbier, L. M., Moiseev, A. A., Krizmanic, J. F., Ormes, J. F., Case, G., Cherry, M. L., Guzik, T. G., Isbert, J. B., Binns, W. R., Israel, M. H., Krawczynski, H. S., Marrocchesi, P. S., Bigongiari, G., Batkov, K., Kim, M. Y., Bagliesi, M. G., Masestro, P., Millucci, V., Zei, R., Adriani, O., Papini, P., Vannuccini, E., Bonechi, L., Chang, J., Yan, J., Gan, W., Chen, G., Ma, Y. & Wang, H., Astroparticle, Particle and Space Physics, Detectors and Medical Physics Applications (Editors: Barone, Michele, Gaddi, Andrea, Leroy, Claude, Price, Larry, Rancoita, Pier-Giorgio & Ruchti, Randal), p. 911

2007

1. Commission 12: Solar Radiation & Structure [0]
   Bogdan, Thomas. J., Martínez Pillet, Valentin, Asplund, M., Christensen-Dalsgaard, J., Cauzzi, G., Cram, L. E., Dravins, D., Gan, W., Henzl, P., Kosovichev, A., Mariska, J. T., Rovira, M. G. & Venkatakrishnan, P., Transactions of the International Astronomical Union, Series A, 26A, 89
2. Magnetic Stereoscopy of Coronal Loops in NOAA 8891 [26]
   Feng, L., Wiegelmann, T., Inhester, B., Solanki, S., Gan, W. Q. & Ruan, P., Solar Physics, 241, 235
3. The temperature map of the loop and coronal sources of an occulted solar flare [14]
   Li, Y. P. & Gan, W. Q., Advances in Space Research, 39, 1389
4. Solar Plasma Density and Spectrum of Accelerated Particles Derived From the 2.223-Mev Line of a Solar Flare [9]
   Troitskaia, E. V., Gan, W. Q., Kuzhevskij, B. M. & Miroshnichenko, L. I., Solar Physics, 242, 87
5. SMESE: A SMall Explorer for Solar Eruptions [14]
   Vial, J.-C., Auchère, F., Chang, J., Fang, C., Gan, W. Q., Klein, K.-L., Prado, J.-Y., Trottet, G., Wang, C. & Yan, Y. H., Advances in Space Research, 40, 1787

2006

1. An Impulsive Heating Model for the Evolution of Coronal Loops [3]
   Feng, Li & Gan, Wei-Qun, Chinese Journal of Astronomy and Astrophysics, 6, 608
2. Some Recent Progress on Solar High Energy Phenomena [1]
   Gan, W. Q., The 9th Asian-Pacific Regional IAU Meeting (Editors: Sutantyo, W., Premadi, P. W., Mahasena, P., Hidayat, T. & Mineshige, S.), p. 9
3. RHESSI and TRACE Observations for the Impulsive Flare Loops [0]
   Gan, W. Q. & Li, Y. P., Solar Activity and its Magnetic Origin (Editors: Bothmer, Volker & Hady, Ahmed Abdel), IAU Symposium, 233, p. 327
4. On the Peak Times of Thermal and Nontheral Emissions in Solar Flares [17]
   Li, Y. P. & Gan, W. Q., ApJ, 652, L61
5. The Oscillatory Shrinkage in TRACE 195 Å Loops during a Flare Impulsive Phase [40]
   Li, Y. P. & Gan, W. Q., ApJ, 644, L97
6. RHESSI X-ray loop and coronal sources of an occulted flare [1]
   Li, Y. P. & Gan, W. Q., Solar Activity and its Magnetic Origin (Editors: Bothmer, Volker & Hady, Ahmed Abdel), IAU Symposium, 233, p. 393
7. SMESE: a combined UV-IR-X-gamma solar mission [2]
   Millard, Anne A., Auchere, Frederic, Fang, Cheng, Gan, Weiqun, Molodij, Guillaume, Prado, Jean-Yves, Rouesnel, Frederic, Semery, Alain, Trottet, Gerard, Vial, Jean-Claude, Yan, Yihua & Wu, Ji, Space Telescopes and Instrumentation II: Ultraviolet to Gamma Ray (Editors: Turner, Martin J. L. & Hasinger, Günther), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 6266, p. 62660J
8. Spectrum of Accelerated Particles Derived from the 2.223 MeV Line Data in Some Solar Flares [2]
   Miroshnichenko, Leonty I., Troitskaia, Evgenia V. & Gan, Wei Q., Plasma and Fusion Science: 16th IAEA Technical Meeting on Research using Small Fusion Devices (Editors: Herrera-Velázquez, J. Julio E.), American Institute of Physics Conference Series, 875, p. 316
9. A Statistical Study of Rhessi Flares [26]
   Su, Yang, Gan, W. Q. & Li, Y. P., Solar Physics, 238, 61
10. A brief introduction to SMESE mission [0]
    Wang, C., Fang, C., Gan, W., Prado, J.-Y., Trottet, G., Vial, J.-C., Yan, Y., Auchere, F., Chang, J. & Molodi, G., Proceedings of the ILWS Workshop (Editors: Gopalswamy, N. & Bhattacharyya, A.), p. 211
11. A study on the H _α line asymmetry of chromospheric flares [5]
    Yu, Xiao-xia & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 30, 294

2005

1. Progress in the Heating of Active Region Loops [1]
   Feng, L. & Gan, W. Q., Coronal and Stellar Mass Ejections (Editors: Dere, Kenneth, Wang, Jingxiu & Yan, Yihua), IAU Symposium, 226, p. 309
2. Several progresses in the study of active region loops [0]
   Feng, Li & Gan, Wei-Qun, Progress in Astronomy, 23, 215
3. Gamma-ray line analysis for the flares of 28 October and 2 November 2003 [9]
   Gan, W. Q., Advances in Space Research, 35, 1833
4. The Role of Nuclei-Nuclei Interactions in the Production of Gamma-ray Lines in Solar Flares [12]
   Kuzhevskij, Boris M., Gan, Wei-Qun & Miroshnichenko, Leonty I., Chinese Journal of Astronomy and Astrophysics, 5, 295
5. Hard X-ray Patterns of CME-Related Flares [2]
   Li, Y. P. & Gan, W. Q., Coronal and Stellar Mass Ejections (Editors: Dere, Kenneth, Wang, Jingxiu & Yan, Yihua), IAU Symposium, 226, p. 117
6. The Shrinkage of Flare Radio Loops [57]
   Li, Y. P. & Gan, W. Q., ApJ, 629, L137
7. A scenario of the X4.8 flare of 2002 July 23 based on RHESSI and TRACE observations [4]
   Li, You-ping & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 29, 61
8. The CALET Mission on International Space Station [0]
   Torii, S., Tamura, T., Tateyama, N., Hibino, K., Yuda, T., Yoshida, K., Kashiwagi, K., Okuno, S., Nishimura, J., Yamagami, T., Saito, Y., Fuke, H., Takayanagi, M., Tomida, H., Ueno, S., Makino, F., Shibata, M., Katayose, Y., Kuramata, S., Ichimura, M., Uchihori, Y., Kitamura, H., Kasahara, K., Murakami, H., Kobayashi, T., Komori, Y., Mizutani, K., Terasawa, T., Streitmatter, R. E., Mitchell, J. W., Barbier, L. M., Moiseev, A. A., Krizmanic, J. F., Ormes, J. F., Binns, W. R., Israel, M. H., Krawzczynski, H. S., Case, G., Cherry, M. L., Guzik, T. G., Isbert, J. B., Wefel, J. P., Marrocchesi, P. S., Maestro, P., Bagliesi, M. G., Millucci, V., Meucci, M., Bigongiari, G., Zei, R., Ligabue, F., Morsani, F., Adriani, O., Papini, P., Spillantini, P., Bonechi, L., Vannuccini, E., Chang, J., Gan, W. & Lu, T., 29th International Cosmic Ray Conference (ICRC29), Volume 3 (Editors: Acharya, B. Sripathi, Gupta, Sunil, Jagadeesan, P., Jain, Atul, Karthikeyan, S., Morris, Samuel & Tonwar, Suresh), International Cosmic Ray Conference, 3, p. 329
9. Multi-wavelength Diagnostics of Bombardment by Non-thermal Particles in Solar Flares [7]
   Xu, Zhi, Fang, Cheng & Gan, Wei-Qun, Chinese Journal of Astronomy and Astrophysics, 5, 519

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 [10]
   Gan, W. Q., Solar Physics, 219, 279
2. A solar flare scenario based on multi-wavelength observations [3]
   Gan, W. Q., Li, Y. P., Li, H., Yu, X. F. & Du, Q. S., Multi-Wavelength Investigations of Solar Activity (Editors: Stepanov, Alexander V., Benevolenskaya, Elena E. & Kosovichev, Alexander G.), IAU Symposium, 223, p. 623
3. RHESSI and TRACE Observations of the X4.8 Flare on 23 July 2002 [0]
   Gan, W. Q., Li, Y. P. & Su, Y., Stars as Suns : Activity, Evolution and Planets (Editors: Dupree, Andrea K. & Benz, Arnold O.), IAU Symposium, 219, p. 678
4. On the Positronium Continuum and 0.511 MeV Line in Solar Flares [5]
   Gan, Wei-Qun, Chang, Jin, Li, You-Ping, Su, Yang & Miroshnichenko, L. I., Chinese Journal of Astronomy and Astrophysics, 4, 357
5. A scenario of the X4.8 flare on 23 July 2002 manifested by RHESSI and TRACE observations [0]
   Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 45, 158

2003

1. Time profile of the 2.223 MeV line emission and some features of the 16 December 1988 solar event [3]
   Gan, W., Kuzhevskij, B. M., Miroshnichenko, L. I. & Troitskaja, E. V., Solar Variability as an Input to the Earth's Environment (Editors: Wilson, Andrew), ESA Special Publication, 535, p. 655
2. 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
3. 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
4. Time Profile of the 2.223 MeV Gamma-Line Emission and Some Features of the 16 December 1988 Solar Event [1]
   Miroshnichenko, L. I., sTroitskaia, Evgenya V., Gan, Weiqun & Kuzhevskij, Boris M., International Cosmic Ray Conference, International Cosmic Ray Conference, 6, p. 3219
5. The CALorimetric Electron Telescope, CALET, Mission for the International Space Station [3]
   Torii, S., Tamura, T., Tateyama, N., Yoshida, K., Hibino, K., Kashiwagi, K., Anraku, K., Yamashita, T., Makino, F., Nishimura, J., Yamagami, T., Saito, Y., Takayanagi, M., Shibata, M., Katayose, Y., Inoue, T., Uchihori, Y., Kitamura, H., Kasahara, K., Kaiho, H., Tasaki, Y., Murakami, H., Kobayashi, T., Komori, Y., Mizutani, K., Hirai, Y., Yuda, T., Gan, W. Q. & Chang, J., International Cosmic Ray Conference, International Cosmic Ray Conference, 4, p. 2177
6. Preliminary observing achievements of super soft X-ray detector and Γ-ray detector onboard Shenzhou2 [1]
   Zhang, Nan, Tang, He-sen, Chang, Jin, Zhang, He-qi, Gan, Wei-qun, Gu, Fu-yuan, Shen, Qi-zhong, Xu, Yin-lin, Cai, Ming-sheng & Gong, Yi-zhong, Advances in Space Research, 32, 2579

2002

1. Several of the biggest blueshifted events observed with BCS/Yohkoh [1]
   Gan, W. Q. & Li, Y. P., Advances in Space Research, 30, 683
2. 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
3. On Broadening Mechanisms of the Ca XIX Resonance Line in Solar Flares [3]
   Gan, W. Q. & Li, Y. P., Solar Physics, 205, 117
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 [5]
   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
8. Solar Submillimeter and Gamma-Ray Burst Emission [20]
   Kaufmann, P., Raulin, J.-P., Melo, A. M., Correia, E., Costa, J. E. R., de Castro, C. G. Giménez, Silva, A. V. R., Yoshimori, M., Hudson, H. S., Gan, W. Q., Gary, D. E., Gallagher, P. T., Levato, H., Marun, A. & Rovira, M., ApJ, 574, 1059
9. Broadening Mechanisms of the Ca XIX Resonance Line in Solar Flares [0]
   Li, Y. P. & Gan, W. Q., Multi-Wavelength Observations of Coronal Structure and Dynamics (Editors: Martens, P. C. H. & Cauffman, D.), 10, p. 287

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
3. The latest progress in solar gamma-ray studies [0]
   Gan, Weiqun, Progress in Astronomy, 19, 129
4. An interpretation of a HXR flare with exceedingly long delay [1]
   Li, Y. P. & Gan, W. Q., Acta Astronomica Sinica, 42, 47
5. An interpretation of a HXR flare with exceedingly long delay [0]
   Li, You-ping & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 25, 326

2000

1. A comparison between the spectral parameters of both electron and proton dominated events [6]
   Gan, W. Q., Astrophysics and Space Science, 274, 481
2. Energetic Protons: Spectral Evolution and Its Significance [2]
   Gan, W. Q., High Energy Solar Physics Workshop - Anticipating Hess! (Editors: Ramaty, R. & Mandzhavidze, N.), Astronomical Society of the Pacific Conference Series, 206, p. 439
3. On the origin of solar white-light flares [11]
   Gan, W. Q., Hénoux, J. C. & Fang, C., A&A, 354, 691

1999

1. Technique for solar high energy observations. [0]
   Chang, Jin, Cai, Mingsheng & Gan, Weiqun, Publications of the Purple Mountain Observatory, 18, 894
2. On Temporal Variation of the 0.511 MeV Line in A Solar Flare [7]
   Gan, W. Q. & Rieger, E., Solar Physics, 186, 311
3. The significance of invariable point in the energy spectra of non-thermal electrons of solar flares. [0]
   Gan, W. Q., Lin, C. M. & Li, Y. P., Publications of the Purple Mountain Observatory, 18, 125
4. Electron-positron annihilation line in solar flares. [0]
   Gan, Weiqun, Publications of the Purple Mountain Observatory, 18, 334

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 [23]
   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
5. The new progress of observations and studies on solar flare gamma-rays. [2]
   Gan, Weiqun & Lin, Chunmei, Progress in Astronomy, 16, 321
6. Gamma-Ray Line Versus Continuum Emission of Electron-Dominated Episodes During Solar Flares [27]
   Rieger, E., Gan, W. Q. & Marschhäuser, H., Solar Physics, 183, 123

1997

1. Downflows Manifested by CaXIX Resonance Line in Solar Flares [0]
   Gan, W. Q., Proceedings of the 21st Century Chinese Astronomy Conference (Editors: Cheng, K. S. & Chan, K. L.), p. 430
2. 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
3. Line shifts observed by BCS/Yohkoh [1]
   Gan, W. Q. & Watanabe, T., Advances in Space Research, 20, 2319
4. A discussion on the origin of solar white-light flares. [3]
   Gan, Wei-Qun, Acta Astronomica Sinica, 38, 394
5. 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. Spectral Diagnostics of the Energetic Particles in Solar Flares [1]
   Fang, C., Ding, M. D., Henoux, J. C. & Gan, W. Q., Journal of Korean Astronomical Society Supplement, 29, S295
2. On Thermal Hydrodynamical Model of Solar Flares [0]
   Gan, W. Q., IAU Colloquium 153: Magnetodynamic Phenomena in the Solar Atmosphere - Prototypes of Stellar Magnetic Activity (Editors: Uchida, Yutaka, Kosugi, Takeo & Hudson, Hugh S.), p. 313
3. The confirmation of chromospheric condensation in solar flares [2]
   Gan, W. Q. & Rieger, E., Advances in Space Research, 17, 153

1995

1. The solar soft X-rays and their observation techniques. [0]
   Chang, Jin & Gan, Weiqun, Publications of the Purple Mountain Observatory, 14, 335
2. The progresses on the magnetodynamic phenomena in the solar and stellar atmosphere. [0]
   Gan, W. Q., Publications of the Purple Mountain Observatory, 14, 323
3. 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
4. Diagnostics of non-thermal processes in chromospheric flares. III. Lyα and Lyβ spectra for an atmosphere bombarded by electron or proton beams. [18]
   Henoux, J. C., Fang, C. & Gan, W. Q., A&A, 297, 574
5. Some considerations for the future space solar soft X-ray telescope. [0]
   Zhang, Heqi, Gan, Weiqun & Chang, Jin, Publications of the Purple Mountain Observatory, 14, 328

1994

1. Optical Spectra and Semi-Empirical Model of a White-Light Flare [37]
   Ding, M. D., Fang, C., Gan, W. Q. & Okamoto, T., ApJ, 429, 890
2. Atmospheric Heating in Solar Flares by Chromospheric Condensation [34]
   Gan, W. Q. & Mauas, P. J. D., ApJ, 430, 891
3. The physics of gamma-ray flares and their observations. [3]
   Gan, Weiqun & Zhang, Heqi, Progress in Astronomy, 12, 169

1993

1. Diagnostics of non-thermal processes in chromospheric flares. I. H alpha and CaII K line profiles of an atmosphere bombarded by hecta keV electrons. [117]
   Fang, C., Henoux, J. C. & Gan, W. Q., A&A, 274, 917
2. Semi-empirical model of the white light flare on September 19, 1979. [4]
   Fang, Cheng, Ding, Mingde, Okamoto, T. & Gan, Weiqun, Science in China A: Mathematics, 36, 217
3. Semi-empirical model of the white light flare on September 19, 1979 [6]
   Fang, Cheng, Ding, Ming-De, Okamoto, Tomizo & Gan, Wie-Qun, Science China Series Mathematics Physics Astronomy Technological Sciences, 36, 217
4. The Influence of Chromospheric Condensation on Hα Line Profiles [14]
   Gan, W. Q., Rieger, E., Fang, C. & Zhang, H. Q., Solar Physics, 143, 141
5. Semiempirical Flare Models with Chromospheric Condensation [52]
   Gan, W. Q., Rieger, E. & Fang, C., ApJ, 416, 886
6. Spectral Predictions by a Thermal Hydrodynamical Model of a Solar Flare Loop [1]
   Gan, W. Q. & Rieger, E., Physics of Solar and Stellar Coronae (Editors: Linsky, Jeffrey L. & Serio, Salvatore), Astrophysics and Space Science Library, 183, p. 167
7. Diagnostics of non-thermal processes in chromospheric flares. II. H alpha and CaII K line profiles of an atmosphere bombarded by 100 KeV-1 MeV protons. [49]
   Henoux, J. C., Fang, C. & Gan, W. Q., A&A, 274, 923
8. White-Light Flares Related to Solar Maximum Mission Observations [3]
   Rieger, E. & Gan, W. Q., Acta Astronomica Sinica, 34, 430

1992

1. Ca II K Line Diagnostics of the Dynamics of the Solar Flare Atmosphere [19]
   Fang, Cheng, Hiei, Eijiro, Yin, Su-Ying & Gan, Wei-Qun, Publications of the Astronomical Society of Japan, 44, 63
2. 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
3. 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
4. Observation and analysis of the asymmetry of CaII K line of solar flares [0]
   Yin, Su-ying, Fang, Cheng & Gan, Wei-qun, Chinese Astronomy and Astrophysics, 16, 187

1991

1. A Hydrodynamic Thermal Model of the Impulsive Phase of Solar Flares [0]
   Fang, C., Gan, W. Q. & Zhang, H. Q., Flare Physics in Solar Activity Maximum 22 (Editors: Uchida, Yutaka, Canfield, Richard C., Watanabe, Tetsuya & Hiei, Eijiro), p.157
2. 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
3. A hydrodynamic model of the impulsive phase of a solar flare loop [79]
   Gan, W. Q., Zhang, H. Q. & Fang, C., A&A, 241, 618
4. Observation and analysis of the asymmetry of CaII K line of solar flares [1]
   Yin, Su-Ying, Fang, Chen & Gan, Wei-Qun, Acta Astronomica Sinica, 32, 353

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

1989

1. Dynamics of Solar Flare Atmosphere and its Spectral Diagnostics [0]
   Fang, C. & Gan, W. Q., Progress in Astronomy, 7, 90
2. Dynamics of the solar flare atmosphere and its spectral diagnostics. [4]
   Fang, Cheng & Gan, Weiqun, Progress in Astronomy, 7, 81
3. Progress of Study of the Dynamic Models of Solar Flares [0]
   Gan, W. Q., Publications of the Purple Mountain Observatory, 8, 135

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. A study of the energy deposits in flaring atmosphere with semiempirical models of flares. [1]
   Fang, Cheng & Gan, Wei-qun, Chinese Journal of Space Science, 7, 29
2. Time-match semi-empirical models of the chromospheric flare on 3 February, 1983 [45]
   Gan, Wei-Qun & Fang, Cheng, Solar Physics, 107, 311
3. A non-LTE analysis of solar flare K line [9]
   Gan, Wei-qun & Fang, Cheng, Chinese Astronomy and Astrophysics, 11, 49

1986

1. Semiempirical time-varying models of chromospheric flares. [0]
   Fang, C., Gan, W. Q., Huang, Y. R. & Hu, J., The Lower Atmosphere of Solar Flares (Editors: Neidig, D. F. & Machado, M. E.), p. 117
2. Semiempirical time-varying models of the chromospheric flare on Dec. 2, 1982. [4]
   Fang, C., Huang, Y.-R., Hu, J. & Gan, W.-Q., Acta Astrophysica Sinica, 6, 322
3. A non-LTE analysis of solar flare K line [5]
   Gan, Wei-Qun & Fang, Cheng, Acta Astronomica Sinica, 27, 227