Publications of Xin Cheng

A list of publications authored or co-authored by Xin Cheng, 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: 0000-0003-2837-7136

List of publications ordered by citations
Number of papers: 120 (refereed: 119)
No. of citations: 4703
First author papers: 23 (refereed: 22)

2026

  1. Two-stage Primary Acceleration in Filament Initial Eruption under a Fan─Spine Magnetic Configuration [0]
    Li, Haitang, Yu, Ke, Zhou, Chang, Liu, Qiang, Cheng, Xin, Guo, Jinhan, Sha, Feiyang, Qiu, Ye & Liu, Yu, ApJ, 997, 315
  2. 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

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 near-real-time data-assimilative model of the solar corona [18]
    Downs, Cooper, Linker, Jon A., Caplan, Ronald M., Mason, Emily I., Riley, Pete, Davidson, Ryder, Reyes, Andres, Palmerio, Erika, Lionello, Roberto, Turtle, James, Ben-Nun, Michal, Stulajter, Miko M., Titov, Viacheslav S., Török, Tibor, Upton, Lisa A., Attie, Raphael, Jha, Bibhuti K., Arge, Charles N., Henney, Carl J., Valori, Gherardo, Strecker, Hanna, Calchetti, Daniele, Germerott, Dietmar, Hirzberger, Johann, Suárez, David Orozco, Rodríguez, Julian Blanco, Solanki, Sami K., Cheng, Xin & Wu, Sizhe, Science, 388, 1306
  3. 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
  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. 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
  6. The Solar Close Observations and Proximity Experiments (SCOPE) mission [1]
    Lin, Jun, Feng, Jing, Ge, Zhenhua, Tian, Jiang, Chen, Yuhao, Cheng, Xin, Tian, Hui, He, Jiansen, Pevtsov, Alexei, Ji, Haisheng, Yang, Shangbin, Hashim, Parida, Zhou, Bin, Zhang, Yiteng, Zhang, Shenyi, Lu, Xi, Yuan, Yuan, Liu, Liu, Wang, Haoyu, Jiang, Hu, Deng, Lei, Shi, Xingjian, Ma, Lin, Wang, Jingxing, Huang, Shanjie, Zhang, Xiaoshi, Yang, Hao, Yao, Zhonghua, Zhang, He, Miao, Yuanming, Ni, Lei, Mei, Zhixing, Ye, Jing & Li, Yan, Astronomical Techniques and Instruments, 2, 148
  7. Understanding observational characteristics of solar flare current sheets [1]
    Ren, Zining, Wang, Yulei, Cheng, Xin & Ding, Mingde, A&A, 694, A103
  8. 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
  9. Basic Pattern of Three-dimensional Magnetic Reconnection within Strongly Turbulent Current Sheets [4]
    Wang, Yulei, Cheng, Xin & Ding, Mingde, ApJ, 985, 43
  10. Initiation Route of Coronal Mass Ejections. II. The Role of Filament Mass [7]
    Xing, Chen, Cheng, Xin, Aulanier, Guillaume & Ding, Mingde, ApJ, 986, 37
  11. Flaring activities of fast rotating stars have a solar-like latitudinal distribution [4]
    Yang, Huiqin, Cheng, Xin, Liu, Jifeng, Liu, Shuai, Zhao, Zhanhao, Zhou, Guiping, Hou, Yijun, Gao, Changliang & Niu, Zexi, A&A, 695, A21

2024

  1. Simultaneous Eruption and Shrinkage of Preexisting Flare Loops during a Subsequent Solar Eruption [4]
    Chen, Huadong, Fletcher, Lyndsay, Zhou, Guiping, Cheng, Xin, Wang, Ya, Mulay, Sargam, Zheng, Ruisheng, Ma, Suli & Zhang, Xiaofan, ApJ, 976, 207
  2. Eruption of a Million-Kelvin Warm Magnetic Flux Rope on the Sun [5]
    Li, Leping, Song, Hongqiang, Peter, Hardi, Chitta, Lakshmi Pradeep, Cheng, Xin, Li, Zhentong & Zhou, Guiping, ApJ, 967, 130
  3. 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
  4. 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
  5. Height-dependent differential rotation of the solar atmosphere detected by CHASE [11]
    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
  6. 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
  7. 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
  8. 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
  9. 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

2023

  1. A Model for Confined Solar Eruptions Including External Reconnection [21]
    Chen, Jun, Cheng, Xin, Kliem, Bernhard & Ding, MingDe, ApJ, 951, L35
  2. Observations of a Failed Solar Filament Eruption Involving External Reconnection [19]
    Chen, Yuehong, Cheng, Xin, Chen, Jun, Dai, Yu & Ding, Mingde, ApJ, 959, 67
  3. Ultra-high-resolution observations of persistent null-point reconnection in the solar corona [41]
    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. 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
  5. 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
  6. 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
  7. Evidence of external reconnection between an erupting mini-filament and ambient loops observed by Solar Orbiter/EUI [12]
    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
  8. The Structure of Coronal Mass Ejections Recorded by the K-Coronagraph at Mauna Loa Solar Observatory [15]
    Song, Hongqiang, Li, Leping, Zhou, Zhenjun, Xia, Lidong, Cheng, Xin & Chen, Yao, ApJ, 952, L22
  9. 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
  10. 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
  11. 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
  12. Fine Structures of Radio Bursts from Flare Star AD Leo with FAST Observations [27]
    Zhang, Jiale, Tian, Hui, Zarka, Philippe, Louis, Corentin K., Lu, Hongpeng, Gao, Dongyang, Sun, Xiaohui, Yu, Sijie, Chen, Bin, Cheng, Xin & Wang, Ke, ApJ, 953, 65

2022

  1. 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
  2. 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
  3. 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
  4. 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
  5. 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
  6. 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. From Formation to Disruption: Observing the Multiphase Evolution of a Solar Flare Current Sheet [12]
    Chitta, L. P., Priest, E. R. & Cheng, X., ApJ, 911, 133
  2. 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
  3. Annihilation of Magnetic Islands at the Top of Solar Flare Loops [19]
    Wang, Yulei, Cheng, Xin, Ding, Mingde & Lu, Quanming, ApJ, 923, 227

2020

  1. 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
  2. The Kinematic Evolution of Erupting Structures in Confined Solar Flares [6]
    Huang, Z. W., Cheng, X. & Ding, M. D., ApJ, 904, L2
  3. 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
  4. 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
  5. 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
  6. When do solar erupting hot magnetic flux ropes form? [22]
    Nindos, A., Patsourakos, S., Vourlidas, A., Cheng, X. & Zhang, J., A&A, 642, A109
  7. Decoding the Pre-Eruptive Magnetic Field Configurations of Coronal Mass Ejections [129]
    Patsourakos, S., Vourlidas, A., Török, T., Kliem, B., Antiochos, S. K., Archontis, V., Aulanier, G., Cheng, X., Chintzoglou, G., Georgoulis, M. K., Green, L. M., Leake, J. E., Moore, R., Nindos, A., Syntelis, P., Yardley, S. L., Yurchyshyn, V. & Zhang, J., Space Science Reviews, 216, 131
  8. Do All Interplanetary Coronal Mass Ejections Have a Magnetic Flux Rope Structure Near 1 au? [21]
    Song, H. Q., Zhang, J., Cheng, X., Li, G., Hu, Q., Li, L. P., Chen, S. J., Zheng, R. S. & Chen, Y., ApJ, 901, L21
  9. Evolution of the Toroidal Flux of CME Flux Ropes during Eruption [32]
    Xing, C., Cheng, X. & Ding, M. D., The Innovation, 1, 100059
  10. 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
  11. Triggering Mechanism and Material Transfer of a Failed Solar Filament Eruption [39]
    Yan, Xiaoli, Xue, Zhike, Cheng, Xin, Zhang, Jun, Wang, Jincheng, Kong, Defang, Yang, Liheng, Chen, Guorong & Feng, Xueshang, ApJ, 889, 106
  12. The Relationship between Chirality, Sense of Rotation, and Hemispheric Preference of Solar Eruptive Filaments [19]
    Zhou, Zhenjun, Liu, Rui, Cheng, Xing, Jiang, Chaowei, Wang, Yuming, Liu, Lijuan & Cui, Jun, ApJ, 891, 180

2019

  1. Localized Microwave and EUV Bright Structures in an Eruptive Prominence [9]
    Huang, Jing, Tan, Baolin, Masuda, Satoshi, Cheng, Xin, Bisoi, Susanta Kumar & Melnikov, Victor, ApJ, 874, 176
  2. 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
  3. Chinese Hα Solar Explorer (CHASE) - a complementary space mission to the ASO-S [47]
    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
  4. Formation of a Magnetic Flux Rope in the Early Emergence Phase of NOAA Active Region 12673 [23]
    Liu, Lijuan, Cheng, Xin, Wang, Yuming & Zhou, Zhenjun, ApJ, 884, 45
  5. On the Nature of the Bright Core of Solar Coronal Mass Ejections [27]
    Song, H. Q., Zhang, J., Cheng, X., Li, L. P., Tang, Y. Z., Wang, B., Zheng, R. S. & Chen, Y., ApJ, 883, 43
  6. Transfer of Twists from a Mini-filament to Large-scale Loops by Magnetic Reconnection [25]
    Yang, Liheng, Yan, Xiaoli, Xue, Zhike, Li, Ting, Wang, Jincheng, Li, Qiaoling & Cheng, Xin, ApJ, 887, 239
  7. Extreme-ultraviolet Late Phase Caused by Magnetic Reconnection over Quadrupolar Magnetic Configuration in a Solar Flare [17]
    Zhou, Zhenjun, Cheng, Xin, Liu, Lijuan, Dai, Yu, Wang, Yuming & Cui, Jun, ApJ, 878, 46
  8. Why Do Torus-unstable Solar Filaments Experience Failed Eruptions? [53]
    Zhou, Zhenjun, Cheng, Xin, Zhang, Jie, Wang, Yuming, Wang, Dong, Liu, Lijuan, Zhuang, Bin & Cui, Jun, ApJ, 877, L28

2018

  1. Unambiguous Evidence of Filament Splitting-induced Partial Eruptions [42]
    Cheng, X., Kliem, B. & Ding, M. D., ApJ, 856, 48
  2. 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
  3. 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
  4. 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
  5. Magnetic Field Modeling of Hot Channels in Four Flare/Coronal Mass Ejection Events [19]
    Liu, Tie, Su, Yingna, Cheng, Xin, van Ballegooijen, Adriaan & Ji, Haisheng, ApJ, 868, 59
  6. The Reversal of a Solar Prominence Rotation about Its Ascending Direction during a Failed Eruption [18]
    Song, H. Q., Zhou, Z. J., Li, L. P., Cheng, X., Zhang, J., Chen, Y., Chen, C. X., Ma, X. W., Wang, B. & Zheng, R. S., ApJ, 864, L37
  7. The Acceleration Process of a Solar Quiescent Filament in the Inner Corona [21]
    Song, H. Q., Chen, Y., Qiu, J., Chen, C. X., Zhang, J., Cheng, X., Shen, Y. D. & Zheng, R. S., ApJ, 857, L21
  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

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. Origin and structures of solar eruptions II: Magnetic modeling [72]
    Guo, Yang, Cheng, Xin & Ding, MingDe, Science China Earth Sciences, 60, 1408
  3. A circular white-light flare with impulsive and gradual white-light kernels [38]
    Hao, Q., Yang, K., Cheng, X., Guo, Y., Fang, C., Ding, M. D., Chen, P. F. & Li, Z., Nature Communications, 8, 2202
  4. The Three-part Structure of a Filament-unrelated Solar Coronal Mass Ejection [27]
    Song, H. Q., Cheng, X., Chen, Y., Zhang, J., Wang, B., Li, L. P., Li, B., Hu, Q. & Li, G., ApJ, 848, 21
  5. The Origin of Solar Filament Plasma Inferred from In Situ Observations of Elemental Abundances [37]
    Song, H. Q., Chen, Y., Li, B., Li, L. P., Zhao, L., He, J. S., Duan, D., Cheng, X. & Zhang, J., ApJ, 836, L11
  6. A Solar Blowout Jet Caused by the Eruption of a Magnetic Flux Rope [26]
    Zhu, Xiaoshuai, Wang, Huaning, Cheng, Xin & Huang, Chong, ApJ, 844, L20

2016

  1. Spectroscopic Diagnostics of Solar Magnetic Flux Ropes Using Iron Forbidden Line [10]
    Cheng, X. & Ding, M. D., ApJ, 823, L4
  2. The Characteristics of the Footpoints of Solar Magnetic Flux Ropes during Eruptions [49]
    Cheng, X. & Ding, M. D., ApJS, 225, 16
  3. 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
  4. A Statistical Study of the Average Iron Charge State Distributions inside Magnetic Clouds for Solar Cycle 23 [37]
    Song, H. Q., Zhong, Z., Chen, Y., Zhang, J., Cheng, X., Zhao, L., Hu, Q. & Li, G., ApJS, 224, 27
  5. 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
  6. 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
  7. Sunspot Rotation as a Driver of Major Solar Eruptions in the NOAA Active Region 12158 [43]
    Vemareddy, P., Cheng, X. & Ravindra, B., ApJ, 829, 24
  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. Relationship Between Sunspot Rotation and a Major Solar Eruption on 12 July 2012 [20]
    Wang, Rui, Liu, Ying D., Wiegelmann, Thomas, Cheng, Xin, Hu, Huidong & Yang, Zhongwei, Solar Physics, 291, 1159
  10. Observing the release of twist by magnetic reconnection in a solar filament eruption [154]
    Xue, Zhike, Yan, Xiaoli, Cheng, Xin, Yang, Liheng, Su, Yingna, Kliem, Bernhard, Zhang, Jun, Liu, Zhong, Bi, Yi, Xiang, Yongyuan, Yang, Kai & Zhao, Li, Nature Communications, 7, 11837

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. 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
  4. Extremely Large EUV Late Phase of Solar Flares [32]
    Liu, Kai, Wang, Yuming, Zhang, Jie, Cheng, Xin, Liu, Rui & Shen, Chenglong, ApJ, 802, 35
  5. Evidence of the Solar EUV Hot Channel as a Magnetic Flux Rope from Remote-sensing and In Situ Observations [40]
    SONG, H. Q., CHEN, Y., ZHANG, J., CHENG, X., Wang, B., HU, Q., LI, G. & WANG, Y. M., ApJ, 808, L15
  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. Acceleration Phases of a Solar Filament During Its Eruption [38]
    Song, H. Q., Chen, Y., Zhang, J., Cheng, X., Fu, H. & LI, G., ApJ, 804, L38
  8. First Taste of Hot Channel in Interplanetary Space [15]
    Song, H. Q., Zhang, J., Chen, Y., Cheng, X., Li, G. & Wang, Y. M., ApJ, 803, 96
  9. 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
  10. 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
  11. 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

2014

  1. Direct Observations of Tether-cutting Reconnection during a Major Solar Event from 2014 February 24 to 25 [66]
    Chen, Huadong, Zhang, Jun, Cheng, Xin, Ma, Suli, Yang, Shuhong & Li, Ting, ApJ, 797, L15
  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. 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
  5. Temperature Evolution of a Magnetic Flux Rope in a Failed Solar Eruption [55]
    Song, H. Q., Zhang, J., Cheng, X., Chen, Y., Liu, R., Wang, Y. M. & Li, B., ApJ, 784, 48
  6. Direct Observations of Magnetic Flux Rope Formation during a Solar Coronal Mass Ejection [63]
    Song, H. Q., Zhang, J., Chen, Y. & Cheng, X., ApJ, 792, L40
  7. 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
  8. 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

2013

  1. Investigating Two Successive Flux Rope Eruptions in a Solar Active Region [91]
    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. 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
  4. On the Origin of the Extreme-ultraviolet Late Phase of Solar Flares [47]
    Liu, Kai, Zhang, Jie, Wang, Yuming & Cheng, Xin, ApJ, 768, 150

2012

  1. Differential Emission Measure Analysis of Multiple Structural Components of Coronal Mass Ejections in the Inner Corona [264]
    Cheng, X., Zhang, J., Saar, S. H. & Ding, M. D., ApJ, 761, 62
  2. 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
  3. Secondary Waves and/or the "Reflection" from and "Transmission" through a Coronal Hole of an Extreme Ultraviolet Wave Associated with the 2011 February 15 X2.2 Flare Observed with SDO/AIA and STEREO/EUVI [93]
    Olmedo, Oscar, Vourlidas, Angelos, Zhang, Jie & Cheng, Xin, ApJ, 756, 143
  4. Observation of an evolving magnetic flux rope before and during a solar eruption [306]
    Zhang, Jie, Cheng, Xin & Ding, Ming-De, Nature Communications, 3, 747

2011

  1. 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
  2. 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

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. 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
  3. 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

Created on Wed Apr 22 04:24:23 2026.