Publications of Mingde Ding

A list of publications authored or co-authored by Mingde Ding, 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: 0000-0002-4978-4972

List of publications ordered by citations
Number of papers: 295 (refereed: 286)
No. of citations: 7378
First author papers: 36 (refereed: 35)

2026

1. A Novel Way for Extrapolating the Solar Magnetic Field with PRO-GAN [0]
   Chen, Guoyin, Guo, Yang, Hao, Qi & Ding, Mingde, ApJ, 1001, 96
2. Influence of Cross-sectional Expansion on Coronal Emissions from a Radiatively Cooling Solar Flare Loop [0]
   Dai, Yu, Li, Shihan, Tang, Wenlong, Li, Zhen & Ding, Mingde, ApJ, 1000, 51
3. Rotation of a Solar Jet Driven by Plasma Flow along Helical Magnetic Fields in an Active Region [0]
   Huang, Lei, Guo, Yang, Li, Zhen, Guo, Jinhan & Ding, Mingde, ApJ, 1000, 132
4. Multiple Extreme-ultraviolet Peaks Attributed to Three-dimensional Magnetic Reconnection in a Long-duration Solar Flare [0]
   Li, Shihan, Guo, Jinhan, Wang, Wensi, Dai, Yu, Schmieder, Brigitte, Dudík, Jaroslav, Guo, Yang & Ding, Mingde, ApJ, 1000, 142
5. Data-constrained Magnetohydrodynamic Simulation of the Global Solar Corona Including Solar Wind Effects within 2.5 R_⊙ [0]
   Li, Yihua, Chen, Guoyin, Guo, Jinhan, Guo, Yang, Wu, Hao, Huang, Yuhao, Cheng, Xin, Ding, M. D. & Keppens, Rony, ApJ, 997, 228
6. Formation of a Magnetic Flux Rope prior to the Eruption: Insight from a Radiative MHD Simulation of Active Region Emergence [0]
   Wang, Can, Yokoyama, Takaaki, Chen, Feng, Xing, Chen, Ding, Mingde & Lu, Zekun, ApJ, 996, L35
7. Limb Shift of the Fe I 6569 Å Line on the Sun [0]
   Yu, H. C., Ding, M. D., Hong, J., Wang, Y. K. & Li, Z., ApJ, 998, 145

2025

1. High-Resolution Modeling of Coronae and Winds in Solar-Type Stars with Varying Rotation Rates. I. X-Ray Coronae [0]
   Chen, Yue-Hong, Alvarado-Gómez, Julián D., Cheng, Xin, Dai, Yu, Shi, Tong, Poppenhäger, Katja, Xing, Chen, Inoue, Shun, Warnecke, Jörn, Korpi-Lagg, Maarit J. & Ding, Mingde, ApJ, 995, 83
2. A Successful Sheared-arcade Eruption Triggered by a Failed Erupted Small Filament [1]
   Fu, Wentai, Ni, Yiwei, Guo, Jinhan, Guo, Yang, Chen, P. F. & Ding, Mingde, ApJ, 986, 95
3. Observational analysis of a circular ribbon flare with a rotating jet [0]
   Huang, Lei, Guo, Yang, Li, Zhentong, Zhou, Chang, Ding, Mingde & Su, Yang, A&A, 702, A214
4. Microwave Imaging Spectroscopy Diagnosis of the Slow-rise Precursor of a Major Solar Eruption [0]
   Kou, Yuankun, Cheng, Xin, Yu, Sijie, Luo, Yingjie, Chen, Bin & Ding, Mingde, ApJ, 988, L62
5. The Formation of a Multifilament System Driven by Photospheric Converging Motions in a Bipolar Sunspot [4]
   Li, Haitang, Guo, Jinhan, Cheng, Xin, Zhou, Chang, Yan, Xiaoli, Chen, Jun, Guo, Yang, Oloketuyi, Jacob, Ding, Mingde & Liu, Yu, ApJ, 979, L46
6. Data-constrained Magnetohydrodynamic Simulation of a Filament Eruption in the Decaying Active Region 13079 on a Global Scale [1]
   Li, Yihua, Guo, Yang, Guo, Jinhan, Ding, M. D., Xia, Chun & Keppens, Rony, ApJ, 985, 138
7. Data-constrained 3D magnetohydrodynamics simulation of a spiral jet caused by an unstable flux rope embedded in a fan─spine configuration [4]
   Li, Z. F., Guo, J. H., Cheng, X., Ding, M. D., Chitta, L. P., Peter, H., Poedts, S. & Calchetti, D., A&A, 696, L2
8. Astronomical image denoising by self-supervised deep learning and restoration processes [6]
   Liu, Tie, Quan, Yuhui, Su, Yingna, Guo, Yang, Liu, Shu, Ji, Haisheng, Hao, Qi, Gao, Yulong, Liu, Yuxia, Wang, Yikang, Sun, Wenqing & Ding, Mingde, Nature Astronomy, 9, 608
9. Simulating the Ring-shaped Line-of-sight Flows in Prominence-cavity Systems [0]
   Liu, Tie, Guo, Yang, Su, Yingna, Guo, Jinhan, Ni, Yiwei, Qiu, Ye, Zhao, Jie, Li, Chuan, Ji, Haisheng, Chen, Pengfei & Ding, Mingde, ApJ, 993, 101
10. The Kinematical Behavior of Solar Eruptive Filaments Affected by the Poloidal Magnetic Field [2]
    Qiu, Ye, Guo, Yang, Ding, Mingde, Li, Chuan, Kong, Linggao & Li, Zhen, ApJ, 991, 184
11. Understanding observational characteristics of solar flare current sheets [1]
    Ren, Zining, Wang, Yulei, Cheng, Xin & Ding, Mingde, A&A, 694, A103
12. Continuum Enhancement and Line Asymmetries of Solar Flares in Different Heating Models: Alfvén Waves, Nonthermal Electron Beams, and Their Joint Effect [0]
    Tian, Jun, Li, Ying, Hong, Jie & Ding, M. D., ApJ, 987, 163
13. Investigating an Erupting Metric-decimetric Radio Depression and Its Physical Origin [2]
    Wang, B. T., Cheng, X., Yan, J. Y., Xing, C., Fu, W. T., Wu, L., Deng, L., Lan, A. L., Chen, Y., Wang, C. & Ding, M. D., ApJ, 984, 97
14. Basic Pattern of Three-dimensional Magnetic Reconnection within Strongly Turbulent Current Sheets [4]
    Wang, Yulei, Cheng, Xin & Ding, Mingde, ApJ, 985, 43
15. Particle Acceleration and Transport in the Large-scale Current Sheet under an Erupting Magnetic Flux Rope [3]
    Wu, H., Guo, Y., Keppens, R., Xia, C., Su, Y., Kong, X. L. & Ding, M. D., ApJ, 992, 81
16. Initiation Route of Coronal Mass Ejections. II. The Role of Filament Mass [7]
    Xing, Chen, Cheng, Xin, Aulanier, Guillaume & Ding, Mingde, ApJ, 986, 37
17. Sun-as-a-star analysis of simulated solar flares [5]
    Yu, H. C., Hong, J. & Ding, M. D., A&A, 694, A315
18. The role of the external toroidal magnetic field on the large-angle rotation of magnetic flux ropes [0]
    Zhang, Xiaomeng, Guo, Jinhan, Guo, Yang & Ding, Mingde, A&A, 695, A1
19. Observational Study of Recurrent Jets: Evolution of Magnetic Flux, Current, and Helicity [8]
    Zhou, Chang, Guo, Yang, Chen, Guoyin, Qiu, Ye & Ding, M. D., ApJ, 979, 62

2024

1. Generalized Coronal Loop Scaling Laws and Their Implication for Turbulence in Solar Active Region Loops [6]
   Dai, Y., Xiang, J. J. & Ding, M. D., ApJ, 965, 2
2. Magnetic flux rope models and data-driven magnetohydrodynamic simulations of solar eruptions [18]
   Guo, Yang, Guo, Jinhan, Ni, Yiwei, Xia, Chun, Zhong, Ze, Ding, Mingde, Chen, Pengfei & Keppens, Rony, Reviews of Modern Plasma Physics, 8, 29
3. Enhanced Peak and Extended Cooling of the Extreme-ultraviolet Late Phase in a Confined Solar Flare [3]
   Li, Shihan, Dai, Yu, Ding, Mingde, Li, Zhen, Guo, Jinhan & Wu, Hao, ApJ, 977, 257
4. 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
5. Various Features of the X-class White-light Flares in Super Active Region NOAA 13664 [18]
   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
6. Periodic Coronal Rain Driven by Self-consistent Heating Process in a Radiative Magnetohydrodynamic Simulation [8]
   Lu, Zekun, Chen, Feng, Guo, J. H., Ding, M. D., Wang, Can, Yu, Haocheng, Ni, Y. W. & Xia, Chun, ApJ, 973, L1
7. A model for heating the super-hot corona in solar active regions [16]
   Lu, Zekun, Chen, Feng, Ding, M. D., Wang, Can, Dai, Yu & Cheng, Xin, Nature Astronomy, 8, 706
8. Sun-as-a-star Study of an X-class Solar Flare with Spectroscopic Observations of CHASE [8]
   Ma, Y. L., Lao, Q. H., Cheng, X., Wang, B. T., Zhao, Z. H., Rao, S. H., Li, C. & Ding, M. D., ApJ, 966, 45
9. Three-dimensional Velocity Fields of the Solar Filament Eruptions Detected by CHASE [10]
   Qiu, Ye, Li, Chuan, Guo, Yang, Li, Zhen, Ding, Mingde & Kong, Linggao, ApJ, 961, L30
10. Height-dependent differential rotation of the solar atmosphere detected by CHASE [16]
    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
11. A method for determining the locations and configurations of magnetic reconnection within three-dimensional turbulent plasmas [5]
    Wang, Yulei, Cheng, Xin, Guo, Yang, Guo, Jinhan & Ding, Mingde, A&A, 683, A224
12. Identifying footpoints of pre-eruptive and coronal mass ejection flux ropes with sunspot scars [5]
    Xing, Chen, Aulanier, Guillaume, Schmieder, Brigitte, Cheng, Xin & Ding, Mingde, A&A, 682, A3
13. Unveiling the Initiation Route of Coronal Mass Ejections through Their Slow Rise Phase [25]
    Xing, Chen, Aulanier, Guillaume, Cheng, Xin, Xia, Chun & Ding, Mingde, ApJ, 966, 70
14. Source Region of the Solar Wind: Statistics of the Doppler Velocities at the Chromosphere [2]
    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
15. The Solar Aspect System of the Hard X-ray Imager Onboard ASO-S [2]
    Yu, Jirui, He, Yinghong, Tao, Jinyou, Su, Yang, Zhang, Zhe, Yang, Jianfeng, Wang, Nange, Guo, Song, Lv, Baogang, Chen, Xiaobo, Xue, Bin, Hu, Yiming, Chen, Dengyi, Yu, Fu, Ding, Mingde & Ruan, Ping, Solar Physics, 299, 122
16. Rotation and Confined Eruption of a Double Flux-rope System [9]
    Zhang, X. M., Guo, J. H., Guo, Y., Ding, M. D. & Keppens, Rony, ApJ, 961, 145
17. Comprehensive Analysis of a Filament-embedding Solar Active Region at Different Stages of Evolution [3]
    Zhao, Jie, Yu, Fu, Gibson, Sarah E., Fan, Yuhong, Su, Yang, Li, Ying, Dai, Jun, Li, Hui, Li, Chuan, Chen, Pengfei, Ding, Ming-De & Fang, Cheng, ApJ, 965, L16
18. A Statistical Study of Soft X-Ray Flares on Solar-type Stars [13]
    Zhao, Z. H., Hua, Z. Q., Cheng, X., Li, Z. Y. & Ding, M. D., ApJ, 961, 130
19. Developing an Automated Detection, Tracking, and Analysis Method for Solar Filaments Observed by CHASE via Machine Learning [5]
    Zheng, Z., Hao, Q., Qiu, Y., Hong, J., Li, C. & Ding, M. D., ApJ, 965, 150

2023

1. Measuring local physical parameters in coronal loops with spatial seismology [6]
   Chen, G. Y., Guo, Y., Ding, M. D. & Erdélyi, R., A&A, 678, A205
2. A Model for Confined Solar Eruptions Including External Reconnection [21]
   Chen, Jun, Cheng, Xin, Kliem, Bernhard & Ding, MingDe, ApJ, 951, L35
3. An atypical plateau-like extreme-ultraviolet late-phase solar flare driven by the nonradial eruption of a magnetic flux rope [5]
   Chen, Yuehong, Dai, Yu & Ding, Mingde, A&A, 675, A147
4. Observations of a Failed Solar Filament Eruption Involving External Reconnection [20]
   Chen, Yuehong, Cheng, Xin, Chen, Jun, Dai, Yu & Ding, Mingde, ApJ, 959, 67
5. Ultra-high-resolution observations of persistent null-point reconnection in the solar corona [44]
   Cheng, X., Priest, E. R., Li, H. T., Chen, J., Aulanier, G., Chitta, L. P., Wang, Y. L., Peter, H., Zhu, X. S., Xing, C., Ding, M. D., Solanki, S. K., Berghmans, D., Teriaca, L., Aznar Cuadrado, R., Zhukov, A. N., Guo, Y., Long, D., Harra, L., Smith, P. J., Rodriguez, L., Verbeeck, C., Barczynski, K. & Parenti, S., Nature Communications, 14, 2107
6. Author Correction: Ultra-high-resolution observations of persistent null-point reconnection in the solar corona [3]
   Cheng, X., Priest, E. R., Li, H. T., Chen, J., Aulanier, G., Chitta, L. P., Wang, Y. L., Peter, H., Zhu, X. S., Xing, C., Ding, M. D., Solanki, S. K., Berghmans, D., Teriaca, L., Aznar Cuadrado, R., Zhukov, A. N., Guo, Y., Long, D., Harra, L., Smith, P. J., Rodriguez, L., Verbeeck, C., Barczynski, K. & Parenti, S., Nature Communications, 14, 2372
7. Deciphering the Slow-rise Precursor of a Major Coronal Mass Ejection [23]
   Cheng, X., Xing, C., Aulanier, G., Solanki, S. K., Peter, H. & Ding, M. D., ApJ, 954, L47
8. Data-constrained MHD Simulation of a Multi-ribbon Flare Corresponding to a Successful and a Confined Eruption [5]
   Fu, Wentai, Guo, Yang, Ding, Mingde, Zhong, Ze & Qiu, Ye, ApJ, 944, 179
9. Data-constrained Magnetohydrodynamic Simulation of an Intermediate Solar Filament Eruption [8]
   Guo, Yang, Guo, Jinhan, Ni, Yiwei, Ding, M. D., Chen, P. F., Xia, Chun, Keppens, Rony & Yang, Kai E., ApJ, 958, 25
10. Partial Eruption of Solar Filaments. I. Configuration and Formation of Double-decker Filaments [17]
    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
11. Formation of a Long Filament Through the Connection of Two Filament Segments Observed by CHASE [9]
    Li, H. T., Cheng, X., Ni, Y. W., Li, C., Rao, S. H., Guo, J. H., Ding, M. D. & Chen, P. F., ApJ, 958, L42
12. Evidence of external reconnection between an erupting mini-filament and ambient loops observed by Solar Orbiter/EUI [14]
    Li, Z. F., Cheng, X., Ding, M. D., Chitta, L. P., Peter, H., Berghmans, D., Smith, P. J., Auchère, F., Parenti, S., Barczynski, K., Harra, L., Schühle, U., Buchlin, É., Verbeeck, C., Aznar Cuadrado, R., Zhukov, A. N., Long, D. M., Teriaca, L. & Rodriguez, L., A&A, 673, A83
13. Spectral Observations and Modeling of a Solar White-light Flare Observed by CHASE [17]
    Song, De-Chao, Tian, Jun, Li, Y., Ding, M. D., Su, Yang, Yu, Sijie, Hong, Jie, Qiu, Ye, Rao, Shihao, Liu, Xiaofeng, Li, Qiao, Chen, Xingyao, Li, Chuan & Fang, Cheng, ApJ, 952, L6
14. Sequential Remote Brightenings and Co-spatial Fast Downflows during Two Successive Flares [4]
    Wang, B. T., Cheng, X., Li, C., Chen, J. & Ding, M. D., ApJ, 953, 172
15. Radiative Magnetohydrodynamic Simulation of the Confined Eruption of a Magnetic Flux Rope: Unveiling the Driving and Constraining Forces [11]
    Wang, Can, Chen, Feng, Ding, Mingde & Lu, Zekun, ApJ, 956, 106
16. Spectral Features of the Solar Transition Region and Chromospheric Lines at Flare Ribbons Observed with IRIS [8]
    Wang, L. F., Li, Y., Li, Q., Cheng, X. & Ding, M. D., ApJS, 268, 62
17. Three-dimensional Turbulent Reconnection within the Solar Flare Current Sheet [24]
    Wang, Yulei, Cheng, Xin, Ding, Mingde, Liu, Zhaoyuan, Liu, Jian & Zhu, Xiaojue, ApJ, 954, L36
18. Highly Energetic Electrons Accelerated in Strong Solar Flares as a Preferred Driver of Sunquakes [10]
    Wu, H., Dai, Y. & Ding, M. D., ApJ, 943, L6
19. The intensity ratio variation of the Si IV 1394/1403 Å lines during solar flares. Resonance scattering and opacity effects [3]
    Yu, H. C., Hong, J. & Ding, M. D., A&A, 675, A171
20. Unveiling the Mechanism for the Rapid Acceleration Phase in a Solar Eruption [12]
    Zhong, Ze, Guo, Yang, Wiegelmann, Thomas, Ding, M. D. & Chen, Yao, ApJ, 947, L2
21. Simulation of a Solar Jet Formed from an Untwisting Flux Rope Interacting with a Null Point [6]
    Zhu, Jiahao, Guo, Yang, Ding, Mingde & Schmieder, Brigitte, ApJ, 949, 2

2022

1. Coronal loop kink oscillation periods derived from the information of density, magnetic field, and loop geometry [6]
   Chen, G. Y., Chen, L. Y., Guo, Y., Ding, M. D., Chen, P. F. & Erdélyi, R., A&A, 664, A48
2. An approximate recipe of chromospheric radiative losses for solar flares [8]
   Hong, J., Carlsson, M. & Ding, M. D., A&A, 661, A77
3. Statistical analysis of the Si I 6560.58 Å line observed by CHASE [9]
   Hong, Jie, Qiu, Ye, Hao, Qi, Xu, Zhi, Li, Chuan, Ding, Mingde & Fang, Cheng, A&A, 668, A9
4. Spectroscopic and Imaging Observations of Spatially Extended Magnetic Reconnection in the Splitting of a Solar Filament Structure [6]
   Hu, Huidong, Liu, Ying D., Chitta, Lakshmi Pradeep, Peter, Hardi & Ding, Mingde, ApJ, 940, L12
5. Microwave imaging of quasi-periodic pulsations at flare current sheet [18]
   Kou, Yuankun, Cheng, Xin, Wang, Yulei, Yu, Sijie, Chen, Bin, Kontar, Eduard P. & Ding, Mingde, Nature Communications, 13, 7680
6. The Chinese Hα Solar Explorer (CHASE) mission: An overview [130]
   Li, Chuan, Fang, Cheng, Li, Zhen, Ding, MingDe, Chen, PengFei, Qiu, Ye, You, Wei, Yuan, Yuan, An, MinJie, Tao, HongJiang, Li, XianSheng, Chen, Zhe, Liu, Qiang, Mei, Gui, Yang, Liang, Zhang, Wei, Cheng, WeiQiang, Chen, JianXin, Chen, ChangYa, Gu, Qiang, Huang, QingLong, Liu, MingXing, Han, ChengShan, Xin, HongWei, Chen, ChangZheng, Ni, YiWei, Wang, WenBo, Rao, ShiHao, Li, HaiTang, Lu, Xi, Wang, Wei, Lin, Jun, Jiang, YiXian, Meng, LingJie & Zhao, Jian, Science China Physics, Mechanics, and Astronomy, 65, 289602
7. Growth of a filament channel by intermittent small-scale magnetic reconnection [11]
   Li, H. T., Cheng, X., Guo, J. H., Yan, X. L., Wang, L. F., Zhong, Z., Li, C. & Ding, M. D., A&A, 663, A127
8. 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
9. Three-dimensional Magnetic and Thermodynamic Structures of Solar Microflares [5]
   Li, Z. F., Cheng, X., Chen, F., Chen, J. & Ding, M. D., ApJ, 930, L7
10. Calibration procedures for the CHASE/HIS science data [66]
    Qiu, Ye, Rao, ShiHao, Li, Chuan, Fang, Cheng, Ding, MingDe, Li, Zhen, Ni, YiWei, Wang, WenBo, Hong, Jie, Hao, Qi, Dai, Yu, Chen, PengFei, Wan, XiaoSheng, Xu, Zhi, You, Wei, Yuan, Yuan, Tao, HongJiang, Li, XianSheng, He, YuKun & Liu, Qiang, Science China Physics, Mechanics, and Astronomy, 65, 289603
11. Quantifying the Magnetic Structure of a Coronal Shock Producing a Type II Radio Burst [10]
    Su, W., Li, T. M., Cheng, X., Feng, L., Zhang, P. J., Chen, P. F., Ding, M. D., Chen, L. J., Guo, Y., Wang, Y., Li, D. & Zhang, L. Y., ApJ, 929, 175
12. An evaluation of different recipes for chromospheric radiative losses in solar flares [4]
    Tian, J., Hong, J., Li, Y. & Ding, M. D., A&A, 668, A96
13. Overexpansion-dominated coronal mass ejection formation and induced radio bursts [8]
    Wang, B. T., Cheng, X., Song, H. Q. & Ding, M. D., A&A, 666, A166
14. Radiative Magnetohydrodynamic Simulation of the Confined Eruption of a Magnetic Flux Rope: Magnetic Structure and Plasma Thermodynamics [7]
    Wang, Can, Chen, Feng, Ding, Mingde & Lu, Zekun, ApJ, 933, L29
15. Current-sheet Oscillations Caused by the Kelvin-Helmholtz Instability at the Loop Top of Solar Flares [12]
    Wang, Yulei, Cheng, Xin, Ren, Zining & Ding, Mingde, ApJ, 931, L32
16. Imaging and Spectroscopic Observations of the Dynamic Processes in Limb Solar Flares [2]
    Yu, Ke, Li, Y., Hong, Jie, Song, De-Chao & Ding, M. D., ApJ, 935, 8
17. Diagnosing the Optically Thick/Thin Features Using the Intensity Ratio of Si IV Resonance Lines in Solar Flares [14]
    Zhou, Yi-An, Hong, Jie, Li, Y. & Ding, M. D., ApJ, 926, 223
18. Resolving Two Distinct Thermal X-Ray Components in a Compound Solar Flare [1]
    Zhou, Zhenjun, Liu, Rui, Sun, Jianqing, Zhang, Jie, Ding, Mingde, Cheng, Xin, Wang, Yuming, Yu, Xiaoyu, Liu, Lijuan & Cui, Jun, ApJ, 925, 132

2021

1. Data-constrained Magnetohydrodynamic Simulation of a Long-duration Eruptive Flare [31]
   Guo, Yang, Zhong, Ze, Ding, M. D., Chen, P. F., Xia, Chun & Keppens, Rony, ApJ, 919, 39
2. Revisiting the Spectral Features of Ellerman Bombs and UV Bursts. I. Radiative Hydrodynamic Simulations [7]
   Hong, Jie, Li, Ying, Ding, M. D. & Hao, Qi, ApJ, 921, 50
3. Thermodynamic Evolution of Solar Flare Supra-arcade Downflows [16]
   Li, Z. F., Cheng, X., Ding, M. D., Reeves, Katharine K., Kittrell, DeOndre, Weber, Mark & McKenzie, David E., ApJ, 915, 124
4. 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
5. Exploring the Nature of EUV Waves in a Radiative Magnetohydrodynamic Simulation [21]
   Wang, Can, Chen, Feng & Ding, Mingde, ApJ, 911, L8
6. Annihilation of Magnetic Islands at the Top of Solar Flare Loops [19]
   Wang, Yulei, Cheng, Xin, Ding, Mingde & Lu, Quanming, ApJ, 923, 227
7. Radiative hydrodynamic simulations of the spectral characteristics of solar white-light flares [8]
   Yang, Yu-Tong, Hong, Jie, Li, Ying, Ding, Ming-De & Li, Hui, Research in Astronomy and Astrophysics, 21, 001
8. Extreme-ultraviolet Late Phase in Homologous Solar Flares from a Complex Active Region [11]
   Zhong, Y., Dai, Y. & Ding, M. D., ApJ, 916, 37
9. The role of non-axisymmetry of magnetic flux rope in constraining solar eruptions [56]
   Zhong, Ze, Guo, Yang & Ding, M. D., Nature Communications, 12, 2734

2020

1. Some interesting topics provoked by the solar filament research in the past decade [82]
   Chen, Peng-Fei, Xu, Ao-Ao & Ding, Ming-De, Research in Astronomy and Astrophysics, 20, 166
2. Initiation and Early Kinematic Evolution of Solar Eruptions [107]
   Cheng, X., Zhang, J., Kliem, B., Török, T., Xing, C., Zhou, Z. J., Inhester, B. & Ding, M. D., ApJ, 894, 85
3. Spectral Diagnostics of Solar Photospheric Bright Points [3]
   Hao, Q., Fang, C., Ding, M. D., Li, Z. & Cao, Wenda, ApJ, 900, 130
4. Modeling the IRIS Lines During a Flare. I. The Blue-wing Enhancement in the Mg II k Line [7]
   Hong, Jie, Li, Ying, Ding, M. D. & Zhou, Yu-Hao, ApJ, 890, 115
5. Non-LTE Calculations of the Mg I 12.32 μm Line in a Flaring Atmosphere [3]
   Hong, Jie, Bai, Xianyong, Li, Ying, Ding, M. D. & Deng, Yuanyong, ApJ, 898, 134
6. The Kinematic Evolution of Erupting Structures in Confined Solar Flares [6]
   Huang, Z. W., Cheng, X. & Ding, M. D., ApJ, 904, L2
7. The Lyα Emission in Solar Flares. I. A Statistical Study on Its Relationship with the 1-8 ŠSoft X-Ray Emission [9]
   Jing, Zhichen, Pan, Wuqi, Yang, Yukun, Song, Dechao, Tian, Jun, Li, Y., Cheng, X., Hong, Jie & Ding, M. D., ApJ, 904, 41
8. What Determines Solar Flares Producing Interplanetary Type III Radio Bursts? [7]
   Kou, Y. K., Jing, Z. C., Cheng, X., Pan, W. Q., Liu, Y., Li, C. & Ding, M. D., ApJ, 898, L24
9. Synthesising solar radio images from Atmospheric Imaging Assembly extreme-ultraviolet data [3]
   Li, Zhuo-Fei, Hu, Song-Hua, Cheng, Xin & Ding, Ming-De, Research in Astronomy and Astrophysics, 20, 018
10. The Magnetic Topology and Eruption Mechanism of a Multiple-ribbon Flare [15]
    Qiu, Ye, Guo, Yang, Ding, Mingde & Zhong, Ze, ApJ, 901, 13
11. Evolution of the Toroidal Flux of CME Flux Ropes during Eruption [33]
    Xing, C., Cheng, X. & Ding, M. D., The Innovation, 1, 100059
12. Quantifying the Toroidal Flux of Preexisting Flux Ropes of Coronal Mass Ejections [10]
    Xing, C., Cheng, X., Qiu, Jiong, Hu, Qiang, Priest, E. R. & Ding, M. D., ApJ, 889, 125
13. IRIS Si IV Line Profiles at Flare Ribbons as Indications of Chromospheric Condensation [28]
    Yu, Ke, Li, Y., Ding, M. D., Li, D., Zhou, Yi-An & Hong, Jie, ApJ, 896, 154
14. Spectroscopic Observations of High-speed Downflows in a C1.7 Solar Flare [7]
    Zhou, Yi-An, Li, Y., Ding, M. D., Hong, Jie & Yu, Ke, ApJ, 904, 95

2019

1. 2.5 m wide-field and high-resolution telescope [18]
   Fang, Cheng, Gu, Bozhong, Yuan, Xiangyan, Ding, Mingde, Chen, Pengfei, Dai, Zigao, Li, Xiangdong, Shi, Yong, Xie, Jiwei, Bai, Jinming, Qu, Zhongquan, Hao, Qi, Quo, Yang, Cheng, Xin & Li, Zhen, Scientia Sinica Physica, Mechanica & Astronomica, 49, 059603
2. Solar Magnetic Flux Rope Eruption Simulated by a Data-driven Magnetohydrodynamic Model [60]
   Guo, Yang, Xia, Chun, Keppens, Rony, Ding, M. D. & Chen, P. F., ApJ, 870, L21
3. The Magnetic Flux Rope Structure of a Triangulated Solar Filament [38]
   Guo, Yang, Xu, Yu, Ding, M. D., Chen, P. F., Xia, Chun & Keppens, Rony, ApJ, 884, L1
4. The Response of the Lyα Line in Different Flare Heating Models [17]
   Hong, Jie, Li, Ying, Ding, M. D. & Carlsson, Mats, ApJ, 879, 128
5. Formation and Eruption of a Mini-sigmoid Originating in Coronal Hole [5]
   Huang, Z. W., Cheng, X., Su, Y. N., Liu, T. & Ding, M. D., ApJ, 887, 130
6. Chinese Hα Solar Explorer (CHASE) ─ a complementary space mission to the ASO-S [49]
   Li, Chuan, Fang, Cheng, Li, Zhen, Ding, Ming-De, Chen, Peng-Fei, Chen, Zhe, Lin, Liang-Kui, Chen, Chang-Zheng, Chen, Chang-Ya, Tao, Hong-Jiang, You, Wei, Hao, Qi, Dai, Yu, Cheng, Xin, Guo, Yang, Hong, Jie, An, Min-Jie, Cheng, Wei-Qiang, Chen, Jian-Xin, Wang, Wei & Zhang, Wei, Research in Astronomy and Astrophysics, 19, 165
7. Different Signatures of Chromospheric Evaporation in Two Solar Flares Observed with IRIS [33]
   Li, Y., Ding, M. D., Hong, J., Li, H. & Gan, W. Q., ApJ, 879, 30
8. Chinese Sunspot Drawings and Their Digitization - (I) Parameter Archives [13]
   Lin, G. H., Wang, X. F., Liu, S., Yang, X., Zhu, G. F., Deng, Y. Y., Ji, H. S., Zhou, T. H., Sun, L. N., Feng, Y. L., Liu, Z. Z., Tao, J. P., Ben, M. X., Lin, J., Ding, M. D., Li, Z., Zheng, S., Zeng, S. G., He, H. L., Zeng, X. Y., Shu, Y. & Sun, X. B., Solar Physics, 294, 79
9. A Statistical Study of the Magnetic Imprints of X-class Solar Flares [8]
   Lu, Zekun, Cao, Weiguang, Jin, Gaoxiang, Zhang, Yining, Ding, Mingde & Guo, Yang, ApJ, 876, 133
10. Particle Acceleration at the Pileup Collision of the Twin Shock [9]
    Wang, Xin, Giacalone, Joe, Yan, Yihua, Ding, Mingde, Li, Chuan, Lu, Hong & Shan, Hao, ApJ, 885, 66
11. Transition from Circular-ribbon to Parallel-ribbon Flares Associated with a Bifurcated Magnetic Flux Rope [29]
    Zhong, Z., Guo, Y., Ding, M. D., Fang, C. & Hao, Q., ApJ, 871, 105

2018

1. Observations of Turbulent Magnetic Reconnection within a Solar Current Sheet [139]
   Cheng, X., Li, Y., Wan, L. F., Ding, M. D., Chen, P. F., Zhang, J. & Liu, J. J., ApJ, 866, 64
2. Unambiguous Evidence of Filament Splitting-induced Partial Eruptions [43]
   Cheng, X., Kliem, B. & Ding, M. D., ApJ, 856, 48
3. Probing the Production of Extreme-ultraviolet Late-phase Solar Flares Using the Model Enthalpy-based Thermal Evolution of Loops [16]
   Dai, Yu & Ding, Mingde, ApJ, 857, 99
4. Extremely Large Extreme-ultraviolet Late Phase Powered by Intense Early Heating in a Non-eruptive Solar Flare [23]
   Dai, Yu, Ding, Mingde, Zong, Weiguo & Yang, Kai E., ApJ, 863, 124
5. Non-LTE Calculations of the Fe I 6173 Å Line in a Flaring Atmosphere [26]
   Hong, Jie, Ding, M. D., Li, Ying & Carlsson, Mats, ApJ, 857, L2
6. 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
7. Observations of white-light flares in NOAA active region 11515: high occurrence rate and relationship with magnetic transients [23]
   Song, Y. L., Tian, H., Zhang, M. & Ding, M. D., A&A, 613, A69
8. Period Increase and Amplitude Distribution of Kink Oscillation of Coronal Loop [31]
   Su, W., Guo, Y., Erdélyi, R., Ning, Z. J., Ding, M. D., Cheng, X. & Tan, B. L., Scientific Reports, 8, 4471
9. Two Types of Long-duration Quasi-static Evolution of Solar Filaments [14]
   Xing, C., Li, H. C., Jiang, B., Cheng, X. & Ding, M. D., ApJ, 857, L14
10. Observationally quantified reconnection providing a viable mechanism for active region coronal heating [13]
    Yang, Kai E., Longcope, Dana W., Ding, M. D. & Guo, Yang, Nature Communications, 9, 692

2017

1. Origin and Structures of Solar Eruptions I: Magnetic Flux Rope [130]
   Cheng, Xin, Guo, Yang & Ding, MingDe, Science China Earth Sciences, 60, 1383
2. Can the temperature of Ellerman Bombs be more than 10 000 K? [22]
   Fang, Cheng, Hao, Qi, Ding, Ming-De & Li, Zhen, Research in Astronomy and Astrophysics, 17, 031
3. Origin and structures of solar eruptions II: Magnetic modeling [72]
   Guo, Yang, Cheng, Xin & Ding, MingDe, Science China Earth Sciences, 60, 1408
4. A circular white-light flare with impulsive and gradual white-light kernels [40]
   Hao, Q., Yang, K., Cheng, X., Guo, Y., Fang, C., Ding, M. D., Chen, P. F. & Li, Z., Nature Communications, 8, 2202
5. RADYN Simulations of Non-thermal and Thermal Models of Ellerman Bombs [21]
   Hong, Jie, Carlsson, Mats & Ding, M. D., ApJ, 845, 144
6. Multi-wavelength Spectral Analysis of Ellerman Bombs Observed by FISS and IRIS [22]
   Hong, Jie, Ding, M. D. & Cao, Wenda, ApJ, 838, 101
7. Imaging Observations of Magnetic Reconnection in a Solar Eruptive Flare [15]
   Li, Y., Sun, X., Ding, M. D., Qiu, J. & Priest, E. R., ApJ, 835, 190
8. Plasma Brightenings in a Failed Solar Filament Eruption [18]
   Li, Y. & Ding, M. D., ApJ, 838, 15
9. 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
10. Particle Acceleration in Two Converging Shocks [4]
    Wang, Xin, Giacalone, Joe, Yan, Yihua, Ding, Mingde, Wang, Na & Shan, Hao, ApJ, 842, 74
11. Observations of a Coronal Shock Wave and the Production of Solar Energetic Particles [4]
    Xu, Z. G., Li, C. & Ding, M. D., ApJ, 840, 38

2016

1. Commission 12: Solar Radiation and Structure [0]
   Cauzzi, Gianna, Shchukina, Nataliya, Kosovichev, Alexander, Bianda, Michele, Brandenburg, Axel, Chou, Dean-Yi, Dasso, Sergio, Ding, Ming-De, Jefferies, Stuart, Krivova, Natalie, Kuznetsov, Vladimir D. & Moreno-Insertis, Fernando, Transactions of the International Astronomical Union, Series A, 29A, 278
2. Spectroscopic Diagnostics of Solar Magnetic Flux Ropes Using Iron Forbidden Line [10]
   Cheng, X. & Ding, M. D., ApJ, 823, L4
3. The Characteristics of the Footpoints of Solar Magnetic Flux Ropes during Eruptions [49]
   Cheng, X. & Ding, M. D., ApJS, 225, 16
4. Bidirectional Outflows as Evidence of Magnetic Reconnection Leading to a Solar Microflare [17]
   Hong, Jie, Ding, M. D., Li, Ying, Yang, Kai, Cheng, Xin, Chen, Feng, Fang, Cheng & Cao, Wenda, ApJ, 820, L17
5. Observations of an X-shaped Ribbon Flare in the Sun and Its Three-dimensional Magnetic Reconnection [17]
   Li, Y., Qiu, J., Longcope, D. W., Ding, M. D. & Yang, K., ApJ, 823, L13
6. Investigating the Conditions of the Formation of a Type II Radio Burst on 2014 January 8 [21]
   Su, W., Cheng, X., Ding, M. D., Chen, P. F., Ning, Z. J. & Ji, H. S., ApJ, 830, 70
7. Observation of Magnetic Reconnection at a 3D Null Point Associated with a Solar Eruption [10]
   Sun, J. Q., Zhang, J., Yang, K., Cheng, X. & Ding, M. D., ApJ, 830, L4
8. The Formation and Early Evolution of a Coronal Mass Ejection and its Associated Shock Wave on 2014 January 8 [4]
   Wan, Linfeng, Cheng, Xin, Shi, Tong, Su, Wei & Ding, M. D., ApJ, 826, 174
9. A few perspectives of solar physics research in China - current status and future [1]
   Wang, Jingxiu, Ding, Mingde, Ji, Haisheng, Deng, Yuanyong, Liu, Yu, Liu, Zhong, Qu, Zhongquan, Wang, Huaning, Xia, Lidong & Yan, Yihua, Asian Journal of Physics, 25, 461
10. Energy spectral property in an isolated CME-driven shock [5]
    Wang, Xin, Yan, Yi-Hua, Ding, Ming-De, Wang, Na & Shan, Hao, Research in Astronomy and Astrophysics, 16, 32
11. Ultra-narrow Negative Flare Front Observed in Helium-10830 Å Using the 1.6 m New Solar Telescope [42]
    Xu, Yan, Cao, Wenda, Ding, Mingde, Kleint, Lucia, Su, Jiangtao, Liu, Chang, Ji, Haisheng, Chae, Jongchul, Jing, Ju, Cho, Kyuhyoun, Cho, Kyungsuk, Gary, Dale & Wang, Haimin, ApJ, 819, 89
12. Quantifying the Topology and Evolution of a Magnetic Flux Rope Associated with Multi-flare Activities [28]
    Yang, Kai, Guo, Yang & Ding, M. D., ApJ, 824, 148

2015

1. Imaging and Spectroscopic Diagnostics on the Formation of Two Magnetic Flux Ropes Revealed by SDO/AIA and IRIS [69]
   Cheng, X., Ding, M. D. & Fang, C., ApJ, 804, 82
2. A Two-ribbon White-light Flare Associated with a Failed Solar Eruption Observed by ONSET, SDO, and IRIS [31]
   Cheng, X., Hao, Q., Ding, M. D., Liu, K., Chen, P. F., Fang, C. & Liu, Y. D., ApJ, 809, 46
3. Slow Patchy Extreme-ultraviolet Propagating Fronts Associated with Fast Coronal Magneto-acoustic Waves in Solar Eruptions [19]
   Guo, Y., Ding, M. D. & Chen, P. F., ApJS, 219, 36
4. Magnetohydrodynamic Seismology of a Coronal Loop System by the First Two Modes of Standing Kink Waves [48]
   Guo, Y., Erdélyi, R., Srivastava, A. K., Hao, Q., Cheng, X., Chen, P. F., Ding, M. D. & Dwivedi, B. N., ApJ, 799, 151
5. Chromospheric Evaporation in an X1.0 Flare on 2014 March 29 Observed with IRIS and EIS [70]
   Li, Y., Ding, M. D., Qiu, J. & Cheng, J. X., ApJ, 811, 7
6. Predicting the Arrival Time of Coronal Mass Ejections with the Graduated Cylindrical Shell and Drag Force Model [55]
   Shi, Tong, Wang, Yikang, Wan, Linfeng, Cheng, Xin, Ding, Mingde & Zhang, Jie, ApJ, 806, 271
7. A Type II Radio Burst without a Coronal Mass Ejection [50]
   Su, W., Cheng, X., Ding, M. D., Chen, P. F. & Sun, J. Q., ApJ, 804, 88
8. Extreme ultraviolet imaging of three-dimensional magnetic reconnection in a solar eruption [57]
   Sun, J. Q., Cheng, X., Ding, M. D., Guo, Y., Priest, E. R., Parnell, C. E., Edwards, S. J., Zhang, J., Chen, P. F. & Fang, C., Nature Communications, 6, 7598
9. On the 2012 October 23 Circular Ribbon Flare: Emission Features and Magnetic Topology [79]
   Yang, Kai, Guo, Yang & Ding, M. D., ApJ, 806, 171

2014

1. Tracking the Evolution of a Coherent Magnetic Flux Rope Continuously from the Inner to the Outer Corona [79]
   Cheng, X., Ding, M. D., Guo, Y., Zhang, J., Vourlidas, A., Liu, Y. D., Olmedo, O., Sun, J. Q. & Li, C., ApJ, 780, 28
2. On the Relationship Between a Hot-channel-like Solar Magnetic Flux Rope and its Embedded Prominence [86]
   Cheng, X., Ding, M. D., Zhang, J., Srivastava, A. K., Guo, Y., Chen, P. F. & Sun, J. Q., ApJ, 789, L35
3. Formation of a Double-decker Magnetic Flux Rope in the Sigmoidal Solar Active Region 11520 [123]
   Cheng, X., Ding, M. D., Zhang, J., Sun, X. D., Guo, Y., Wang, Y. M., Kliem, B. & Deng, Y. Y., ApJ, 789, 93
4. Recurrent Coronal Jets Induced by Magnetic Emergence in the Solar Atmosphere [1]
   Guo, Y., Démoulin, P., Schmieder, B., Ding, M. D., Vargas Domínguez, S. & Liu, Y., Revista Mexicana de Astronomia y Astrofisica Conference Series, Revista Mexicana de Astronomia y Astrofisica Conference Series, 44, p. 45
5. Spectral Observations of Ellerman Bombs and Fitting with a Two-cloud Model [54]
   Hong, Jie, Ding, M. D., Li, Ying, Fang, Cheng & Cao, Wenda, ApJ, 792, 13
6. Heating and Dynamics of Two Flare Loop Systems Observed by AIA and EIS [16]
   Li, Y., Qiu, J. & Ding, M. D., ApJ, 781, 120
7. On the Nature of the Extreme-ultraviolet Late Phase of Solar Flares [27]
   Li, Y., Ding, M. D., Guo, Y. & Dai, Y., ApJ, 793, 85
8. Dynamic Evolution of an X-shaped Structure above a Trans-equatorial Quadrupole Solar Active Region Group [10]
   Sun, J. Q., Cheng, X., Guo, Y., Ding, M. D. & Li, Y., ApJ, 787, L27
9. Differential Emission Measure Analysis of A Limb Solar Flare on 2012 July 19 [36]
   Sun, J. Q., Cheng, X. & Ding, M. D., ApJ, 786, 73
10. Reciprocatory magnetic reconnection in a coronal bright point [16]
    Zhang, Q. M., Chen, P. F., Ding, M. D. & Ji, H. S., A&A, 568, A30

2013

1. Investigating Two Successive Flux Rope Eruptions in a Solar Active Region [92]
   Cheng, X., Zhang, J., Ding, M. D., Olmedo, O., Sun, X. D., Guo, Y. & Liu, Y., ApJ, 769, L25
2. The Driver of Coronal Mass Ejections in the Low Corona: A Flux Rope [141]
   Cheng, X., Zhang, J., Ding, M. D., Liu, Y. & Poomvises, W., ApJ, 763, 43
3. Production of the Extreme-ultraviolet Late Phase of an X Class Flare in a Three-stage Magnetic Reconnection Process [39]
   Dai, Y., Ding, M. D. & Guo, Y., ApJ, 773, L21
4. A new multi-wavelength solar telescope: Optical and Near-infrared Solar Eruption Tracer (ONSET) [54]
   Fang, Cheng, Chen, Peng-Fei, Li, Zhen, Ding, Ming-De, Dai, Yu, Zhang, Xiao-Yu, Mao, Wei-Jun, Zhang, Jun-Ping, Li, Ting, Liang, Yong-Jun & Lu, Hai-Tian, Research in Astronomy and Astrophysics, 13, 1509-1517
5. Twist Accumulation and Topology Structure of a Solar Magnetic Flux Rope [83]
   Guo, Y., Ding, M. D., Cheng, X., Zhao, J. & Pariat, E., ApJ, 779, 157
6. Recurrent coronal jets induced by repetitively accumulated electric currents [76]
   Guo, Y., Démoulin, P., Schmieder, B., Ding, M. D., Vargas Domínguez, S. & Liu, Y., A&A, 555, A19

2012

1. Solar flare hard X-ray spikes observed by RHESSI: a statistical study [19]
   Cheng, J. X., Qiu, J., Ding, M. D. & Wang, H., A&A, 547, A73
2. Differential Emission Measure Analysis of Multiple Structural Components of Coronal Mass Ejections in the Inner Corona [266]
   Cheng, X., Zhang, J., Saar, S. H. & Ding, M. D., ApJ, 761, 62
3. Investigation of the Formation and Separation of an Extreme-ultraviolet Wave from the Expansion of a Coronal Mass Ejection [112]
   Cheng, X., Zhang, J., Olmedo, O., Vourlidas, A., Ding, M. D. & Liu, Y., ApJ, 745, L5
4. Quadrature Observations of Wave and Non-wave Components and their Decoupling in an Extreme-ultraviolet Wave Event [28]
   Dai, Y., Ding, M. D., Chen, P. F. & Zhang, J., ApJ, 759, 55
5. Evolution of Hard X-Ray Sources and Ultraviolet Solar Flare Ribbons for a Confined Eruption of a Magnetic Flux Rope [32]
   Guo, Y., Ding, M. D., Schmieder, B., Démoulin, P. & Li, H., ApJ, 746, 17
6. Modeling Magnetic Field Structure of a Solar Active Region Corona Using Nonlinear Force-free Fields in Spherical Geometry [31]
   Guo, Y., Ding, M. D., Liu, Y., Sun, X. D., DeRosa, M. L. & Wiegelmann, T., ApJ, 760, 47
7. Understanding the white-light flare on 2012 March 9: evidence of a two-step magnetic reconnection [29]
   Hao, Q., Guo, Y., Dai, Y., Ding, M. D., Li, Z., Zhang, X. Y. & Fang, C., A&A, 544, L17
8. Analysis and Modeling of Two Flare Loops Observed by AIA and EIS [13]
   Li, Y., Qiu, J. & Ding, M. D., ApJ, 758, 52
9. Interaction and eruption of two filaments observed by Hinode, SOHO, and STEREO [8]
   Li, Ying & Ding, Ming-De, Research in Astronomy and Astrophysics, 12, 287
10. Observation of an evolving magnetic flux rope before and during a solar eruption [308]
    Zhang, Jie, Cheng, Xin & Ding, Ming-De, Nature Communications, 3, 747
11. Two Types of Magnetic Reconnection in Coronal Bright Points and the Corresponding Magnetic Configuration [108]
    Zhang, Q. M., Chen, P. F., Guo, Y., Fang, C. & Ding, M. D., ApJ, 746, 19

2011

1. Spectroscopic Analysis of Interaction between an Extreme-ultraviolet Imaging Telescope Wave and a Coronal Upflow Region [20]
   Chen, F., Ding, M. D., Chen, P. F. & Harra, L. K., ApJ, 740, 116
2. Observing Flux Rope Formation During the Impulsive Phase of a Solar Eruption [205]
   Cheng, X., Zhang, J., Liu, Y. & Ding, M. D., ApJ, 732, L25
3. A Comparative Study of Confined and Eruptive Flares in NOAA AR 10720 [89]
   Cheng, X., Zhang, J., Ding, M. D., Guo, Y. & Su, J. T., ApJ, 732, 87
4. Different Patterns of Chromospheric Evaporation in a Flaring Region Observed with Hinode/EIS [43]
   Li, Y. & Ding, M. D., ApJ, 727, 98
5. Magnetic field changes associated with three successive M-class solar flares on 2002 July 26 [5]
   Wang, Pu, Ding, Ming-De, Ji, Hai-Sheng & Wang, Hai-Min, Research in Astronomy and Astrophysics, 11, 692
6. Evidence of two-stage magnetic reconnection in the 2005 January 15 X2.6 flare [0]
   Wang, Pu, Li, Yixuan, Ding, Mingde, Ji, Haisheng & Wang, Haimin, New Astronomy, 16, 470
7. Numerical simulations of magnetic reconnection in the lower solar atmosphere [22]
   Xu, Xiao-Yan, Fang, Cheng, Ding, Ming-De & Gao, Dan-Hui, Research in Astronomy and Astrophysics, 11, 225
8. Vector Magnetic Fields and Current Helicities in Coronal Holes and Quiet Regions [7]
   Yang, Shuhong, Zhang, Jun, Li, Ting & Ding, Mingde, ApJ, 726, 49

2010

1. Spectroscopic Analysis of an EIT Wave/dimming Observed by Hinode/EIS [26]
   Chen, F., Ding, M. D. & Chen, P. F., ApJ, 720, 1254
2. Evidence of Explosive Evaporation in a Microflare Observed by Hinode/EIS [39]
   Chen, F. & Ding, M. D., ApJ, 724, 640
3. Radiative Hydrodynamic Simulation of the Continuum Emission in Solar White-Light Flares [34]
   Cheng, J. X., Ding, M. D. & Carlsson, Mats, ApJ, 711, 185
4. Re-flaring of a Post-flare Loop System Driven by Flux Rope Emergence and Twisting [30]
   Cheng, X., Ding, M. D., Guo, Y., Zhang, J., Jing, J. & Wiegelmann, T., ApJ, 716, L68
5. A Study of the Build-up, Initiation, and Acceleration of 2008 April 26 Coronal Mass Ejection Observed by STEREO [40]
   Cheng, X., Ding, M. D. & Zhang, J., ApJ, 712, 1302
6. A Statistical Study of the Post-impulsive-phase Acceleration of Flare-associated Coronal Mass Ejections [31]
   Cheng, X., Zhang, J., Ding, M. D. & Poomvises, W., ApJ, 712, 752
7. Driving Mechanism and Onset Condition of a Confined Eruption [147]
   Guo, Y., Ding, M. D., Schmieder, B., Li, H., Török, T. & Wiegelmann, T., ApJ, 725, L38
8. Why are halo coronal mass ejections faster? [17]
   Zhang, Qing-Min, Guo, Yang, Chen, Peng-Fei, Ding, Ming-De & Fang, Cheng, Research in Astronomy and Astrophysics, 10, 461

2009

1. Formation Heights of Extreme Ultraviolet Lines in an Active Region Derived by Correlation of Doppler Velocity and Magnetic Field [8]
   Guo, Y., Ding, M. D., Jin, M. & Wiegelmann, T., ApJ, 696, 1526
2. Coronal Mass Ejection Induced Outflows Observed with Hinode/EIS [56]
   Jin, M., Ding, M. D., Chen, P. F., Fang, C. & Imada, S., ApJ, 702, 27
3. Measurements of spectral lines observed with Hinode/EIS as implications for coronal heating [15]
   Li, Ying & Ding, Ming-De, Research in Astronomy and Astrophysics, 9, 829
4. Energy Spectrum of the Electrons Accelerated by a Reconnection Electric Field: Exponential or Power Law? [26]
   Liu, W. J., Chen, P. F., Ding, M. D. & Fang, C., ApJ, 690, 1633

2008

1. Simulations of the periodic flaring rate on YY Gem [11]
   Gao, D. H., Chen, P. F., Ding, M. D. & Li, X. D., MNRAS, 384, 1355
2. 3D Magnetic Field Configuration of the 2006 December 13 Flare Extrapolated with the Optimization Method [63]
   Guo, Y., Ding, M. D., Wiegelmann, T. & Li, H., ApJ, 679, 1629
3. Loop-Like Hard X-Ray Emission in a 2005 January 20 Flare [4]
   Jin, Meng & Ding, Mingde, Publications of the Astronomical Society of Japan, 60, 835
4. A complicated solar eruption event on 2003 October 26. Solar flare [4]
   Ning, Zongjun, Ding, M. D., Qiu, K. P., Li, H., Su, Y. N. & Fang, C., Astrophysics and Space Science, 315, 45

2007

1. The Origin of Solar White-Light Flares [7]
   Ding, M. D., The Physics of Chromospheric Plasmas (Editors: Heinzel, P., Dorotovi\vc, I. & Rutten, R. J.), Astronomical Society of the Pacific Conference Series, 368, p. 417
2. Correlation and asymmetry between solar flare hard X-ray footpoints: a statistical study [13]
   Jin, M. & Ding, M. D., A&A, 471, 705
3. Evolution of electron energy spectrum during solar flares [1]
   Liu, W. J., Chen, P. F., Fang, C. & Ding, M. D., Advances in Space Research, 39, 1394
4. Microwave Spectral Evolution of Solar Flares [8]
   Ning, Zongjun & Ding, Mingde, Publications of the Astronomical Society of Japan, 59, 373

2006

1. Footpoint Motion of the Continuum Emission in the 2002 September 30 White-Light Flare [35]
   Chen, Q. R. & Ding, M. D., ApJ, 641, 1217
2. Diagnostics of the Heating Processes in Solar Flares Using Chromospheric Spectral Lines [12]
   Cheng, J. X., Ding, M. D. & Li, J. P., ApJ, 653, 733
3. Spectral Analysis of Ellerman Bombs [119]
   Fang, C., Tang, Y. H., Xu, Z., Ding, M. D. & Chen, P. F., ApJ, 643, 1325

2005

1. Synthesis of CME-Associated Moreton and EIT Wave Features from MHD Simulations [37]
   Chen, P. F., Ding, M. D. & Fang, C., Space Science Reviews, 121, 201
2. On the Relationship between the Continuum Enhancement and Hard X-Ray Emission in a White-Light Flare [29]
   Chen, Q. R. & Ding, M. D., ApJ, 618, 537
3. Two Sympathetic Homologous CMEs on 2002 May 22 [23]
   Cheng, Jian-Xia, Fang, Cheng, Chen, Peng-Fei & Ding, Ming-De, Chinese Journal of Astronomy and Astrophysics, 5, 265
4. On the formation of the He I 10 830 Å line in a flaring atmosphere [31]
   Ding, M. D., Li, H. & Fang, C., A&A, 432, 699
5. On the impulsiveness of the Hα emission from a flaring atmosphere [2]
   Ding, M. D., Advances in Space Research, 35, 1846
6. Occurrence of a White-Light Flare Over a Sunspot and the Associated Change of Magnetic Flux [7]
   Li, J. P., Ding, M. D. & Liu, Y., Solar Physics, 229, 115
7. Microwave type III bursts and pulsation groups [25]
   Ning, Z., Ding, M. D., Wu, H. A., Xu, F. Y. & Meng, X., A&A, 437, 691
8. Waiting Time Distribution of Coronal Mass Ejections [6]
   Yeh, Chin-Teh, Ding, Ming-De & Chen, Peng-Fei, Chinese Journal of Astronomy and Astrophysics, 5, 193
9. Kinetic Properties of CMEs Corrected for the Projection Effect [20]
   Yeh, Chin-Teh, Ding, M. D. & Chen, P. F., Solar Physics, 229, 313

2004

1. Multiwavelength Analysis of an X1.6 Flare of 2001 October 19 [22]
   Li, J. P. & Ding, M. D., ApJ, 606, 583

2003

1. Observations and Spectral Analyses of Solar Flares [5]
   DING, M. D., Journal of Korean Astronomical Society, 36, 49
2. Hα and Hard X-Ray Observations of a Two-Ribbon Flare Associated with a Filament Eruption [35]
   Ding, M. D., Chen, Q. R., Li, J. P. & Chen, P. F., ApJ, 598, 683
3. Interpretation of the infrared continuum in a solar white-light flare [58]
   Ding, M. D., Liu, Y., Yeh, C.-T. & Li, J. P., A&A, 403, 1151
4. Spectral Diagnostics of Non-Thermal Particles in the Solar Chromosphere [4]
   FANG, C., XU, Z. & DING, M. D., Journal of Korean Astronomical Society, 36, 55
5. Magnetic Reconnection in the Solar Lower Atmosphere [1]
   Fang, C., Chen, P. F. & Ding, M. D., The Proceedings of the IAU 8th Asian-Pacific Regional Meeting, Volume 1 (Editors: Ikeuchi, Satoru, Hearnshaw, John & Hanawa, Tomoyuki), Astronomical Society of the Pacific Conference Series, 289, p. 425
6. Tilt-correction adaptive optical system for solar telescope of Nanjing University [3]
   Rao, Chang-Hui, Jiang, Wen-Han, Fang, Cheng, Ling, Ning, Zhou, Wei-Chao, Ding, Ming-De, Zhang, Xue-Jun, Chen, Dong-Hong, Li, Mei, Gao, Xiu-Fa & Mi, Tian, Innovative Telescopes and Instrumentation for Solar Astrophysics (Editors: Keil, Stephen L. & Avakyan, Sergey V.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 4853, p. 658
7. A Tilt-correction Adaptive Optical System for the Solar Telescope of Nanjing University [13]
   Rao, Chang-Hui, Jiang, Wen-Han, Fang, Cheng, Ling, Ning, Zhou, Wei-Chao, Ding, Ming-De, Zhang, Xue-Jun, Chen, Dong-Hong, Li, Mei, Gao, Xiu-Fa & Mi, Tian, Chinese Journal of Astronomy and Astrophysics, 3, 576

2002

1. The Temperature and Density Structure of an Hα Flaring Loop [6]
   Ding, M. D., Liu, Y. & Chen, P. F., Solar Physics, 207, 125
2. Non-LTE Calculation of the Ni I 676.8 Nanometer Line in a Flaring Atmosphere [52]
   Ding, M. D., Qiu, Jiong & Wang, Haimin, ApJ, 576, L83
3. Cyclic variations in the solar lower atmosphere [0]
   Fang, C., Zhang, Y. X., Ding, M. D. & Livingston, W. C., Advances in Space Research, 29, 1947
4. Spectral Analysis of the Flare of 1998 November 11 based on the Multi-cloud Model [9]
   Gu, Xiao-Ma & Ding, Ming-De, Chinese Journal of Astronomy and Astrophysics, 2, 92
5. Two-component model of solar plages [0]
   Li, Jianping, Ding, Mingde & Fang, Cheng, Science in China A: Mathematics, 45, 36
6. Line Broadening in a Limb Flare: Derivation of Macro-turbulent Velocity Fields [5]
   Liu, Ying & Ding, Ming-De, Chinese Journal of Astronomy and Astrophysics, 2, 277

2001

1. Ellerman Bombs, Type II White-light Flares and Magnetic Reconnection in the Solar Lower Atmosphere [64]
   Chen, Peng-Fei, Fang, Cheng & Ding, Ming-De Ding, Chinese Journal of Astronomy and Astrophysics, 1, 176
2. The role of non-thermal electrons in the hydrogen and calcium lines of stellar flares [7]
   Ding, M. D. & Fang, C., MNRAS, 326, 943
3. On the Fast Fluctuations in Solar Flare Hα Blue Wing Emission [28]
   Ding, M. D., Qiu, Jiong, Wang, Haimin & Goode, Philip R., ApJ, 552, 340
4. Semi-empirical model of solar plages [5]
   Fang, Cheng, Ding, Mingde, Hénoux, J.-C. & Livingston, W. C., Science in China A: Mathematics, 44, 528
5. Physical Parameters of a Flare on 22 December 1999 Derived from the Hα Line with a Modified Cloud Method [9]
   Liu, Y. & Ding, M. D., Solar Physics, 200, 127
6. Enhanced Emission at the Infrared Continuum in the Flare of 2001 March 10 [26]
   Liu, Y., Ding, M. D. & Fang, C., ApJ, 563, L169
7. Physical Parameters of a Flare Derived from Multi-line 2D Spectroscopy [3]
   Liu, Ying & Ding, Ming-De, Chinese Journal of Astronomy and Astrophysics, 1, 460
8. Asymmetric Behavior of Hα Footpoint Emission during the Early Phase of an Impulsive Flare [13]
   Qiu, Jiong, Ding, Ming D., Wang, Haimin, Gallagher, Peter T., Sato, Jun, Denker, Carsten & Goode, Philip R., ApJ, 554, 445
9. Quiet-Sun Variability In a Temperature Minimum Region [2]
   Zhang, Y. X., Fang, C., Ding, M. D. & Livingston, W. C., ApJ, 547, L179

2000

1. Numerical Study on the Effect of Heat Conduction on Magnetic Reconnection [1]
   Chen, P. F., Fang, C., Tang, Y. H. & Ding, M. D., Advances in Space Research, 26, 525
2. The role of non-thermal electrons in the optical continuum of stellar flares [6]
   Ding, M. D. & Fang, C., MNRAS, 317, 867
3. Diagnostics of non-thermal processes in chromospheric flares --- IV. Limb flare spectra for an atmosphere bombarded by an electron beam [15]
   Fang, C., Hénoux, J.-C. & Ding, M. D., A&A, 360, 702
4. Ultraviolet and Hα Emission in Ellerman Bombs [71]
   Qiu, Jiong, Ding, Ming D., Wang, Haimin, Denker, Carsten & Goode, Philip R., ApJ, 544, L157

1999

1. Flaring Loop Motion and a Unified Model for Solar Flares [39]
   Chen, P. F., Fang, C., Ding, M. D. & Tang, Y. H., ApJ, 520, 853
2. Simulation of Magnetic Reconnection with Heat Conduction [72]
   Chen, P. F., Fang, C., Tang, Y. H. & Ding, M. D., ApJ, 513, 516
3. Heating in the Lower Atmosphere and the Continuum Emission of Solar White-Light Flares [54]
   Ding, M. D., Fang, C. & Yun, H. S., ApJ, 512, 454
4. An unusually intense CA II K line wing: possible role of particle acceleration in the lower atmosphere [4]
   Ding, M. D., A&A, 351, 368
5. Multi-line two-dimensional spectroscopy of a limb flare [24]
   Ding, M. D., Fang, C., Yin, S. Y. & Chen, P. F., A&A, 348, L29
6. 2D spectra analysis of a SN/C5.6 flare on 19 March 1993. [0]
   Yin, Suying, Fang, Cheng, Ding, Mingde, Huang, Youran & Gao, Xiufa, Journal Nanjing Univ, 35, 21

1998

1. Two-dimensional spectral observations of sunspots in chromospheric lines. I. Asymmetries of CA II lines [5]
   Ding, M. D. & Schleicher, H., A&A, 332, 767
2. Line profiles in moustaches produced by an impacting energetic particle beam [47]
   Ding, M. D., Henoux, J.-C. & Fang, C., A&A, 332, 761
3. Multi-Wavelength Analysis of the Flare on 2 October 1993 [8]
   Fang, C., Tang, Y. H., Hénoux, J.-C., Huang, Y. R., Ding, M. D. & Sakurai, T., Solar Physics, 182, 163
4. A possible mechanism for the Hα broad wings emission of Ellerman bombs [23]
   Henoux, J.-C., Fang, C. & Ding, M. D., A&A, 337, 294

1997

1. Lyman continuum as a diagnostic for nonthermal processes in solar flares. [10]
   Ding, M. D. & Schleicher, H., A&A, 322, 674
2. Influence of non-thermal processes on line asymmetries in solar flares. [19]
   Ding, M. D. & Fang, C., A&A, 318, L17
3. Coronal Loops Above a Sunspot Region [6]
   Fang, C., Tang, Y. H., Ding, M. D., Zhao, J., Sakurai, T. & Hiei, E., Solar Physics, 176, 267
4. Analysis of 2d Hα Spectra and Magnetic Field during the Impulsive Phase of a Solar Flare [5]
   Zhao, Junwei, Fang, Cheng & De Ding, Ming, Solar Physics, 173, 121

1996

1. On a Possible Explanation of Chromospheric Line Asymmetries of Solar Flares [17]
   Ding, M. D. & Fang, C., Solar Physics, 166, 437
2. Chromospheric Evaporation in Four Solar Flares Observed by YOHKOH [25]
   Ding, M. D., Watanabe, T., Shibata, K., Sakurai, T., Kosugi, T. & Fang, C., ApJ, 458, 391
3. Parametric study of the continuum emission of white-light flares. [14]
   Ding, M. D. & Fang, C., A&A, 314, 643
4. A spectral analysis of the 1974-10-11 white-light flare [0]
   Yin, Su-Ying, Fang, Cheng, Ding, Ming-De, Hiei, E. & Fu, Qi-Jun, Chinese Astronomy and Astrophysics, 20, 130

1995

1. Analysis of 2-d flare spectra: Velocity fields derived from Hα line asymmetries [45]
   Ding, M. D., Fang, C. & Huang, Y. R., Solar Physics, 158, 81
2. An Unusual Behaviour of the White-Light Flare on 11 October, 1974 [5]
   Fang, C., Yin, S. Y., Hiei, E., Ding, M. D. & Fu, Q. J., Solar Physics, 158, 387
3. On the spectral characteristics and atmospheric models of two types of white-light flares. [69]
   Fang, C. & Ding, M. D., Astronomy and Astrophysics Supplement Series, 110, 99
4. A study of the white light flare of 1974 September 10 [2]
   Hu, Ju, Fang, Cheng, Ding, Ming-de & Hiei, E., Chinese Astronomy and Astrophysics, 19, 215
5. A CCD Imaging Spectrograph in the Improved Solar Tower of Nanjing-University [27]
   Huang, Y. R., Fang, C., Ding, M. D., Gao, X. F., Zhu, Z. G., Ying, S. Y., Hu, J. & Xue, Y. Z., Solar Physics, 159, 127
6. Asymmetry and Doppler shift of the metallic lines of the solar flare on 11 October 1974. [0]
   Yin, Suying, Fang, Cheng & Ding, Mingde, Journal Nanjing Univ, 31, 221

1994

1. Doppler Shifts of Metallic Lines for a White-Light Flare [13]
   Ding, M. D., Fang, C. & Okamoto, T., Solar Physics, 149, 143
2. On the Propagation of Chromospheric Condensations in Solar Flares (II). Evolution of the Mass Motion Velocity [0]
   Ding, M. D. & Fang, C., Astrophysics and Space Science, 213, 247
3. On the Propagation of Chromospheric Condensations in Solar Flares (I). Dynamic Simulations [4]
   Ding, M. D. & Fang, C., Astrophysics and Space Science, 213, 233
4. The Propagation of Chromospheric Condensations and the Asymmetry of Spectral Lines in Solar Flares [1]
   Ding, M. D. & Fang, C., Acta Astrophysica Sinica, 14, 172
5. 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
6. The propagation of chromospheric condensation and the asymmetry of spectral lines of solar flares [0]
   Ding, Ming-De & Fang, Cheng, Chinese Astronomy and Astrophysics, 18, 355
7. Ca II K emission line profile in a flare atmosphere with turbulent velocity field AAnS 34/3 (1993) 279-287 [0]
   Ding, Ming-de & Fang, Cheng, Chinese Astronomy and Astrophysics, 18, 127
8. Study of the White Light Flare of 1974SEP10 [2]
   Hu, J., Fang, C., Ding, M. D. & Hiei, E., Acta Astronomica Sinica, 35, 396

1993

1. Hα Emission Line Profiles of Solar Flares with Turbulent Velocity Fields [3]
   Ding, M. D. & Fang, C., Solar Physics, 147, 305
2. Mean Optical Depth and Contribution Function of Spectral Lines in a Turbulent Atmosphere [0]
   Ding, M. D. & Fang, C., Astrophysics and Space Science, 204, 283
3. Spectral Analysis of the 3b Flare on 1979SEP19 - Asymmetry and Doppler Shift of the Metal Lines [0]
   Ding, M. D., Fang, C. & Tomizo, O., Acta Astrophysica Sinica, 13, 252
4. Spectral analysis of the 3B flare on September 19, 1979: asymmetries and shifts of metallic lines [2]
   Ding, Ming-de, Fang, Cheng & Okamoto, T., Chinese Astronomy and Astrophysics, 17, 413
5. Spectral analysis of the 3B flare on September 19, 1979: asymmetry and Doppler shift of the metal lines. [1]
   Ding, Mingde, Fang, Cheng & Okamoto, T., Acta Astrophysica Sinica, 13, 245
6. Hα and Ca II K line profiles of solar flare in turbulent velocity fields [1]
   Fang, C. & Ding, M. D., Advances in Space Research, 13, 321
7. 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

1991

1. A semi-empirical model of sunspot umbra [5]
   Ding, Ming-de & Fang, Cheng, Chinese Astronomy and Astrophysics, 15, 28

1989

1. A semi-empirical model of sunspot penumbra [75]
   Ding, M. D. & Fang, C., A&A, 225, 204