Publications of Yang Guo

A list of publications authored or co-authored by Yang Guo, 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: 0000-0002-9293-8439

List of publications ordered by citations
Number of papers: 133 (refereed: 128)
No. of citations: 3985
First author papers: 22 (refereed: 20)

2026

1. Data-driven magnetohydrodynamic simulation of the initiation of a coronal mass ejection with multiple stages [0]
   Guo, J. H., Poedts, S., Schmieder, B., Guo, Y., Zhou, C., Wu, H., Ni, Y. W., Zhong, Z., Zhou, Y. H., Li, S. H. & Chen, P. F., A&A, 707, L5
2. 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
3. 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
4. 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
5. FlareCast: A Solar Flare Forecasting System Utilizing Deep Bayesian Neural Networks and the Concept of Machine Learning Operations [0]
   Lv, Jiameng, Jia, Peng, Shi, Yiwei, Song, Yu, Chen, Feng, Guo, Yang, Liu, Tie, Ji, Kaifan, Jin, Zhenyu, Lin, Jiaben, Hao, Qi, Wang, Yang & Chen, Shupei, ApJS, 283, 46

2025

1. 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
2. The Birth of a Major Coronal Mass Ejection with Intricate Magnetic Structure from Multiple Active Regions [6]
   Guo, J. H., Ni, Y. W., Schmieder, B., Guo, Y., Xia, C., Devi, P., Chandra, R., Poedts, S., Joshi, R., Zhou, Y. H., Li, H. T. & Chen, P. F., ApJ, 983, 48
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. 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
5. Failure of a Solar Filament Eruption Caused by Magnetic Reconnection with Overlying Coronal Loops [7]
   Li, Leping, Song, Hongqiang, Hou, Yijun, Zhou, Guiping, Tan, Baolin, Ji, Kaifan, Xiang, Yongyuan, Hou, Zhenyong, Guo, Yang, Qiu, Ye, Su, Yingna, Ji, Haisheng, Zhang, Qingmin & Ou, Yudi, ApJ, 979, 113
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. 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
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. Two Events with Spectacular Moving Structures in a Failed Solar Filament Eruption [1]
   Ou, Yudi, Su, Yingna, Zhang, Qingmin, Ji, Haisheng, Li, Leping, Song, Hongqiang, Hou, Yijun, Zhou, Guiping, Tan, Baolin, Ji, Kaifan, Xu, Zhe, Xiang, Yongyuan, Hou, Zhenyong, Guo, Yang & Qiu, Ye, ApJ, 988, 14
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. SIP-IFVM: Efficient time-accurate magnetohydrodynamic model of the corona and coronal mass ejections [6]
    Wang, H. P., Guo, J. H., Yang, L. P., Poedts, S., Zhang, F., Lani, A., Baratashvili, T., Linan, L., Lin, R. & Guo, Y., A&A, 693, A257
12. SIP-IFVM: An Observation-based Magnetohydrodynamic Model of a Coronal Mass Ejection [3]
    Wang, Hao P., Guo, Jin H., Poedts, S., Lani, A., Linan, L., Baratashvili, T., Yang, Li P., Jeong, H.-J., Wei, Wen W., Li, Cai X., Yang, Y., Li, Yu C., Wu, Hao, Guo, Yang & Schmieder, B., ApJS, 281, 43
13. Error modeling and analysis of dual-mode high-precision solar polarimetry using a three-waveplate system based on particle swarm optimization [0]
    Wang, Li, Li, Bo, Liu, Qiang, Mei, Gui, Yang, Liang, Hu, Qinglong, Gong, Dapeng, Li, Chuan, Guo, Yang, Li, Zhen, Gu, Guochao, Fan, Jize, Zhang, Xv & Li, Hanshuang, Optics Express, 33, 27651
14. 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
15. 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
16. 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
17. Research on the Principle of Multi-perspective Solar Magnetic Field Measurement [1]
    Zhu, Zhi-Ming, Leng, Xiao-Yan, Guo, Yang, Li, Chuan, Li, Zhen, Lu, Xi, Huang, Fan, You, Wei, Deng, Yuan-Yong, Su, Jiang-Tao, Chen, Feng & Yu, Hao-Cheng, Research in Astronomy and Astrophysics, 25, 045011

2024

1. Modeling the propagation of coronal mass ejections with COCONUT: Implementation of the regularized Biot-Savart law flux rope model [14]
   Guo, J. H., Linan, L., Poedts, S., Guo, Y., Lani, A., Schmieder, B., Brchnelova, M., Perri, B., Baratashvili, T., Ni, Y. W. & Chen, P. F., A&A, 683, A54
2. Data-driven Modeling of a Coronal Magnetic Flux Rope: From Birth to Death [28]
   Guo, J. H., Ni, Y. W., Guo, Y., Xia, C., Schmieder, B., Poedts, S., Zhong, Z., Zhou, Y. H., Yu, F. & Chen, P. F., ApJ, 961, 140
3. Dependence of coronal mass ejections on the morphology and toroidal flux of their source magnetic flux ropes [5]
   Guo, J. H., Linan, L., Poedts, S., Guo, Y., Schmieder, B., Lani, A., Ni, Y. W., Brchnelova, M., Perri, B., Baratashvili, T., Li, S. T. & Chen, P. F., A&A, 690, A189
4. 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
5. Light Bridges and Solar Active Region Evolution Processes [4]
   Li, Fuyu, Rao, Changhui, Zhao, Xinhua, Guo, Yang, Gong, Xiaoying, Chen, Yuhao, Xiang, Nanbin & Wang, Huaning, ApJS, 271, 34
6. 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
7. Height-dependent differential rotation of the solar atmosphere detected by CHASE [14]
   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
8. 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
9. Reducing the Measuring Error of Solar Magnetic Field by Stereo Observation [1]
   Zeng, B. Y., Guo, Y., Li, C., Li, Z., You, W., Huang, F., Zhang, L. Q. & Yang, J. S., Acta Astronomica Sinica, 65, 54
10. 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

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. 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
3. 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
4. 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
5. Thermodynamic and Magnetic Topology Evolution of the X1.0 Flare on 2021 October 28 Simulated by a Data-driven Radiative Magnetohydrodynamic Model [36]
   Guo, J. H., Ni, Y. W., Zhong, Z., Guo, Y., Xia, C., Li, H. T., Poedts, S., Schmieder, B. & Chen, P. F., ApJS, 266, 3
6. Understanding the Lateral Drifting of an Erupting Filament with a Data-constrained Magnetohydrodynamic Simulation [20]
   Guo, J. H., Qiu, Y., Ni, Y. W., Guo, Y., Li, C., Gao, Y. H., Schmieder, B., Poedts, S. & Chen, P. F., ApJ, 956, 119
7. 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
8. Breaking of Large-Scale Filament due to Magnetic Reconnection and Consequent Partial Eruption [4]
   Kang, Kaifeng, Guo, Yang, Li, Yan, Wang, Jingxing & Lin, Jun, Research in Astronomy and Astrophysics, 23, 095018
9. Modelling the magnetic structure of a large-scale horse-shoe-like filament in a decaying and diffuse active region [7]
   Kang, Kaifeng, Guo, Yang, Roussev, Ilia I., Keppens, Rony & Lin, Jun, MNRAS, 518, 388
10. MPI-AMRVAC 3.0: Updates to an open-source simulation framework [108]
    Keppens, R., Popescu Braileanu, B., Zhou, Y., Ruan, W., Xia, C., Guo, Y., Claes, N. & Bacchini, F., A&A, 673, A66
11. Field-aligned and Magnetic Reconnection Flows in a Magnetohydrodynamic Simulation of Prominence-cavity System [2]
    Liu, Tie, Su, Yingna, Guo, Yang, Zhao, Jie & Ji, Haisheng, ApJ, 949, 36
12. Changes of Magnetic Energy and Helicity in Solar Active Regions from Major Flares [34]
    Liu, Yang, Welsch, Brian T., Valori, Gherardo, Georgoulis, Manolis K., Guo, Yang, Pariat, Etienne, Park, Sung-Hong & Thalmann, Julia K., ApJ, 942, 27
13. Reconnection-generated Plasma Flows in the Quasi-separatrix Layer in Localized Solar Corona [9]
    Mondal, Sripan, Srivastava, Abhishek K., Mishra, Sudheer K., Sangal, K., Kayshap, Pradeep, Guo, Yang, Pontin, David I., Uritsky, Vadim M., Ofman, Leon, Wang, Tongjiang & Yuan, Ding, ApJ, 953, 84
14. Solar ring mission: Building a panorama of the Sun and inner-heliosphere [14]
    Wang, Yuming, Bai, Xianyong, Chen, Changyong, Chen, Linjie, Cheng, Xin, Deng, Lei, Deng, Linhua, Deng, Yuanyong, Feng, Li, Gou, Tingyu, Guo, Jingnan, Guo, Yang, Hao, Xinjun, He, Jiansen, Hou, Junfeng, Huang, Jiangjiang, Huang, Zhenghua, Ji, Haisheng, Jiang, Chaowei, Jiang, Jie, Jin, Chunlan, Li, Xiaolei, Li, Yiren, Liu, Jiajia, Liu, Kai, Liu, Liu, Liu, Rui, Liu, Rui, Qiu, Chengbo, Shen, Chenglong, Shen, Fang, Shen, Yuandeng, Shi, Xiangjun, Su, Jiangtao, Su, Yang, Su, Yingna, Sun, Mingzhe, Tan, Baolin, Tian, Hui, Wang, Yamin, Xia, Lidong, Xie, Jinglan, Xiong, Ming, Xu, Mengjiao, Yan, Xiaoli, Yan, Yihua, Yang, Shangbin, Yang, Shuhong, Zhang, Shenyi, Zhang, Quanhao, Zhang, Yonghe, Zhao, Jinsong, Zhou, Guiping & Zou, Hong, Advances in Space Research, 71, 1146
15. Magnetic Field Extrapolation in Active Region Well Comparable to Observations in Multiple Layers [6]
    Yu, Fu, Zhao, Jie, Su, Yang, Zhu, Xiaoshuai, Guo, Yang, Shen, Jinhua & Li, Hui, ApJ, 951, 54
16. 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
17. 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. Prominence fine structures in weakly twisted and highly twisted magnetic flux ropes [22]
   Guo, J. H., Ni, Y. W., Zhou, Y. H., Guo, Y., Schmieder, B. & Chen, P. F., A&A, 667, A89
3. Data-driven modeling of solar coronal magnetic field evolution and eruptions [53]
   Jiang, Chaowei, Feng, Xueshang, Guo, Yang & Hu, Qiang, The Innovation, 3, 100236
4. Data-constrained MHD Simulation for the Eruption of a Filament-Sigmoid System in Solar Active Region 11520 [8]
   Liu, Tie, Fan, Yuhong, Su, Yingna, Guo, Yang, Wang, Ya & Ji, Haisheng, ApJ, 940, 62
5. Relationship between Successive Flares in the Same Active Region and SHARP Parameters [6]
   Ran, Hao, Liu, Ying D., Guo, Yang & Wang, Rui, ApJ, 937, 43
6. On the Temperatures of Planetary Magnetosheaths at the Subsolar Points [4]
   Shen, Chao, Ren, Nian, Qureshi, M. N. S. & Guo, Yang, Journal of Geophysical Research (Space Physics), 127, e2022JA030782
7. 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
8. Can We Detect Coronal Mass Ejections through Asymmetries of Sun-as-a-star Extreme-ultraviolet Spectral Line Profiles? [20]
   Yang, Zihao, Tian, Hui, Bai, Xianyong, Chen, Yajie, Guo, Yang, Zhu, Yingjie, Cheng, Xin, Gao, Yuhang, Xu, Yu, Chen, Hechao & Zhang, Jiale, ApJS, 260, 36

2021

1. Formation and Characteristics of Filament Threads in Double-dipped Magnetic Flux Tubes [15]
   Guo, J. H., Zhou, Y. H., Guo, Y., Ni, Y. W., Karpen, J. T. & Chen, P. F., ApJ, 920, 131
2. Magnetic Twists of Solar Filaments [28]
   Guo, J. H., Ni, Y. W., Qiu, Y., Zhong, Z., Guo, Y. & Chen, P. F., ApJ, 917, 81
3. 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
4. Magnetic Helicity Estimations in Models and Observations of the Solar Magnetic Field. IV. Application to Solar Observations [17]
   Thalmann, J. K., Georgoulis, M. K., Liu, Y., Pariat, E., Valori, G., Anfinogentov, S., Chen, F., Guo, Y., Moraitis, K., Yang, S., Mastrano, Alpha & ISSI Team on Magnetic Helicity, ApJ, 922, 41
5. The role of non-axisymmetry of magnetic flux rope in constraining solar eruptions [55]
   Zhong, Ze, Guo, Yang & Ding, M. D., Nature Communications, 12, 2734

2020

1. The Magnetic Topology and Eruption Mechanism of a Multiple-ribbon Flare [15]
   Qiu, Ye, Guo, Yang, Ding, Mingde & Zhong, Ze, ApJ, 901, 13
2. Analyses of residual accelerations for TianQin based on the global MHD simulation [32]
   Su, Wei, Wang, Yan, Zhou, Ze-Bing, Bai, Yan-Zheng, Guo, Yang, Zhou, Chen, Lee, Tom, Wang, Ming, Zhou, Ming-Yue, Shi, Tong, Yin, Hang & Zhang, Bu-Tian, Classical and Quantum Gravity, 37, 185017
3. Comparative Study of Data-driven Solar Coronal Field Models Using a Flux Emergence Simulation as a Ground-truth Data Set [34]
   Toriumi, Shin, Takasao, Shinsuke, Cheung, Mark C. M., Jiang, Chaowei, Guo, Yang, Hayashi, Keiji & Inoue, Satoshi, ApJ, 890, 103
4. Three-dimensional Reconstruction of Filament Axes and Their Writhe Numbers [7]
   Xu, Yu, Zhu, Jiahao & Guo, Yang, ApJ, 892, 54
5. Imaging and Spectral Study on the Null Point of a Fan-spine Structure During a Solar Flare [30]
   Yang, Shuhong, Zhang, Qingmin, Xu, Zhi, Zhang, Jun, Zhong, Ze & Guo, Yang, ApJ, 898, 101

2019

1. 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
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. Ideal MHD instabilities for coronal mass ejections: interacting current channels and particle acceleration [16]
   Keppens, Rony, Guo, Yang, Makwana, Kirit, Mei, Zhixing, Ripperda, Bart, Xia, Chun & Zhao, Xiaozhou, Reviews of Modern Plasma Physics, 3, 14
4. Chinese Hα Solar Explorer (CHASE) ─ a complementary space mission to the ASO-S [48]
   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
5. 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
6. 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. An Observationally Constrained Model of a Flux Rope that Formed in the Solar Corona [54]
   James, Alexander W., Valori, Gherardo, Green, Lucie M., Liu, Yang, Cheung, Mark C. M., Guo, Yang & van Driel-Gesztelyi, Lidia, ApJ, 855, L16
2. Rapid Buildup of a Magnetic Flux Rope during a Confined X2.2 Class Flare in NOAA AR 12673 [43]
   Liu, Lijuan, Cheng, Xin, Wang, Yuming, Zhou, Zhenjun, Guo, Yang & Cui, Jun, ApJ, 867, L5
3. Observations of a White-light Flare Associated with a Filament Eruption [28]
   Song, Y. L., Guo, Y., Tian, H., Zhu, X. S., Zhang, M. & Zhu, Y. J., ApJ, 854, 64
4. 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
5. 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
6. Impulsive radio and hard X-ray emission from an M-class flare [3]
   Zhang, Ping, Guo, Yang, Wang, Lu & Liu, Siming, A&A, 615, A48

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. Magnetic Helicity Estimations in Models and Observations of the Solar Magnetic Field. III. Twist Number Method [44]
   Guo, Y., Pariat, E., Valori, G., Anfinogentov, S., Chen, F., Georgoulis, M. K., Liu, Y., Moraitis, K., Thalmann, J. K. & Yang, S., ApJ, 840, 40
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 [39]
   Hao, Q., Yang, K., Cheng, X., Guo, Y., Fang, C., Ding, M. D., Chen, P. F. & Li, Z., Nature Communications, 8, 2202
5. Investigation of recurrent EUV jets from highly dynamic magnetic field region [14]
   Joshi, Navin Chandra, Chandra, Ramesh, Guo, Yang, Magara, Tetsuya, Zhelyazkov, Ivan, Moon, Young-Jae & Uddin, Wahab, Astrophysics and Space Science, 362, 10
6. Homologous Circular-ribbon Flares Driven by Twisted Flux Emergence [43]
   Xu, Z., Yang, K., Guo, Y., Zhao, J., Zhao, Z. J. & Kashapova, L., ApJ, 851, 30

2016

1. Magneto-frictional Modeling of Coronal Nonlinear Force-free Fields. II. Application to Observations [59]
   Guo, Y., Xia, C. & Keppens, R., ApJ, 828, 83
2. Magneto-frictional Modeling of Coronal Nonlinear Force-free Fields. I. Testing with Analytic Solutions [68]
   Guo, Y., Xia, C., Keppens, R. & Valori, G., ApJ, 828, 82
3. Can we determine the filament chirality by the filament footpoint location or the barb-bearing? [23]
   Hao, Qi, Guo, Yang, Fang, Cheng, Chen, Peng-Fei & Cao, Wen-Da, Research in Astronomy and Astrophysics, 16, 1
4. Chain Reconnections Observed in Sympathetic Eruptions [35]
   Joshi, Navin Chandra, Schmieder, Brigitte, Magara, Tetsuya, Guo, Yang & Aulanier, Guillaume, ApJ, 820, 126
5. High-resolution Observations of a Large Fan-shaped Surge [13]
   Li, Zhen, Fang, Cheng, Guo, Yang, Chen, P. F., Zou, Peng & Cao, Wenda, ApJ, 826, 217
6. Magnetic Helicity Estimations in Models and Observations of the Solar Magnetic Field. Part I: Finite Volume Methods [69]
   Valori, Gherardo, Pariat, Etienne, Anfinogentov, Sergey, Chen, Feng, Georgoulis, Manolis K., Guo, Yang, Liu, Yang, Moraitis, Kostas, Thalmann, Julia K. & Yang, Shangbin, Space Science Reviews, 201, 147
7. Failed eruptions of two intertwining small-scale filaments [19]
   Xue, Zhike, Yan, Xiaoli, Zhao, Li, Xiang, Yongyuan, Yang, Liheng & Guo, Yang, Publications of the Astronomical Society of Japan, 68, 7
8. 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
9. Explosive Chromospheric Evaporation in a Circular-ribbon Flare [70]
   Zhang, Q. M., Li, D., Ning, Z. J., Su, Y. N., Ji, H. S. & Guo, Y., ApJ, 827, 27

2015

1. 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
2. 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
3. Diagnostics of Ellerman bombs with high-resolution spectral data [23]
   Li, Zhen, Fang, Cheng, Guo, Yang, Chen, Peng-Fei, Xu, Zhi & Cao, Wen-Da, Research in Astronomy and Astrophysics, 15, 1513
4. 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
5. On the 2012 October 23 Circular Ribbon Flare: Emission Features and Magnetic Topology [79]
   Yang, Kai, Guo, Yang & Ding, M. D., ApJ, 806, 171
6. Multiwavelength Observations of a Partially Eruptive Filament on 2011 September 8 [68]
   Zhang, Q. M., Ning, Z. J., Guo, Y., Zhou, T. H., Cheng, X., Ji, H. S., Feng, L. & Wiegelmann, T., ApJ, 805, 4
7. Nonlinear Damping of Alfvén Waves in the Solar Corona Below 1.5 Solar Radii [8]
   Zhao, J. S., Voitenko, Y., Guo, Y., Su, J. T. & Wu, D. J., ApJ, 811, 88

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. 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
5. Topological Analysis of Emerging Bipole Clusters Producing Violent Solar Events [64]
   Mandrini, C. H., Schmieder, B., Démoulin, P., Guo, Y. & Cristiani, G. D., Solar Physics, 289, 2041
6. Investigation of the Moving Structures in a Coronal Bright Point [22]
   Ning, Zongjun & Guo, Yang, ApJ, 794, 79
7. Recurrent filament eruptions and associated CMEs [3]
   Schmieder, Brigitte, Cremades, Hebe, Mandrini, Cristina, Démoulin, Pascal & Guo, Yang, Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 489
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. Three-dimensional Prominence-hosting Magnetic Configurations: Creating a Helical Magnetic Flux Rope [54]
   Xia, C., Keppens, R. & Guo, Y., ApJ, 780, 130
10. Temporal Evolution of the Magnetic Topology of the NOAA Active Region 11158 [49]
    Zhao, Jie, Li, Hui, Pariat, Etienne, Schmieder, Brigitte, Guo, Yang & Wiegelmann, Thomas, ApJ, 787, 88
11. Topological study of active region 11158 [2]
    Zhao, Jie, Li, Hui, Pariat, Etienne, Schmieder, Brigitte, Guo, Yang & Wiegelmann, Thomas, Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 479

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. 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
3. Tests and applications of nonlinear force-free field extrapolations in spherical geometry [0]
   Guo, Y. & Ding, M. D., Solar and Astrophysical Dynamos and Magnetic Activity (Editors: Kosovichev, Alexander G., de Gouveia Dal Pino, Elisabete & Yan, Yihua), IAU Symposium, 294, p. 553
4. 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
5. 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
6. Twisting solar coronal jet launched at the boundary of an active region [97]
   Schmieder, B., Guo, Y., Moreno-Insertis, F., Aulanier, G., Yelles Chaouche, L., Nishizuka, N., Harra, L. K., Thalmann, J. K., Vargas Dominguez, S. & Liu, Y., A&A, 559, A1

2012

1. Where do flare ribbons stop? [17]
   Chen, P. F., Su, J. T., Guo, Y. & Deng, Y. Y., Chinese Science Bulletin, 57, 1393
2. 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
3. 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
4. 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
5. 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. 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
2. A filament supported by different magnetic field configurations [2]
   Guo, Y., Schmieder, B., Démoulin, P., Wiegelmann, T., Aulanier, G., Török, T. & Bommier, V., Physics of Sun and Star Spots (Editors: Prasad Choudhary, Debi & Strassmeier, Klaus G.), IAU Symposium, 273, p. 328

2010

1. 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
2. Magnetic Field Structures in a Facular Region Observed by THEMIS and Hinode [6]
   Guo, Y., Schmieder, B., Bommier, V. & Gosain, S., Solar Physics, 262, 35
3. 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
4. Coexisting Flux Rope and Dipped Arcade Sections Along One Solar Filament [164]
   Guo, Y., Schmieder, B., Démoulin, P., Wiegelmann, T., Aulanier, G., Török, T. & Bommier, V., ApJ, 714, 343
5. 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. Flare Energy Build-up in a Decaying Active Region Near a Coronal Hole [63]
   Su, Yingna, van Ballegooijen, Adriaan, Schmieder, Brigitte, Berlicki, Arkadiusz, Guo, Yang, Golub, Leon & Huang, Guangli, ApJ, 704, 341

2008

1. 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