Publications of Ying D. Liu

A list of publications authored or co-authored by Ying D. Liu, 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: 0000-0002-3483-5909

List of publications ordered by citations
Number of papers: 124 (refereed: 122)
No. of citations: 5878
First author papers: 28 (refereed: 27)

2025

1. Influence of Solar Sails on Magnetic Field Measurements in Space Plasmas [0]
   Horaites, Konstantinos, Rodriguez, Juan V. & Liu, Ying D., essoar.176071643

2024

1. Formation of a Magnetic Cloud from the Merging of Two Successive Coronal Mass Ejections [1]
   Chen, Chong, Liu, Ying D., Zhu, Bei, Hu, Huidong & Wang, Rui, ApJ, 969, L4
2. Origin and Properties of the Near-subsonic Solar Wind Observed by Parker Solar Probe [5]
   Cheng, Wenshuai, Liu, Ying D., Ran, Hao, Jiao, Yiming, Stevens, Michael L. & Kasper, Justin C., ApJ, 967, 58
3. Limb Observations of Global Solar Coronal Extreme-ultraviolet Wavefronts: The Inclination, Kinematics, Coupling with the Expanding Coronal Mass Ejections, and Connection with the Coronal Mass Ejection Driven Shocks [3]
   Hu, Huidong, Zhu, Bei, Liu, Ying D., Chen, Chong, Wang, Rui & Zhao, Xiaowei, ApJ, 976, 9
4. On the Acceleration of the Young Solar Wind from Different Source Regions [4]
   Jiao, Yiming, Liu, Ying D., Cheng, Wenshuai, Ran, Hao & Wang, Rui, ApJ, 975, L41
5. Properties of Steady Sub-Alfvénic Solar Wind in Comparison with Super-Alfvénic Wind from Parker Solar Probe Measurements [17]
   Jiao, Yiming, Liu, Ying D., Ran, Hao & Cheng, Wenshuai, ApJ, 960, 42
6. A Pileup of Coronal Mass Ejections Produced the Largest Geomagnetic Storm in Two Decades [23]
   Liu, Ying D., Hu, Huidong, Zhao, Xiaowei, Chen, Chong & Wang, Rui, ApJ, 974, L8
7. Direct In Situ Measurements of a Fast Coronal Mass Ejection and Associated Structures in the Corona [11]
   Liu, Ying D., Zhu, Bei, Ran, Hao, Hu, Huidong, Liu, Mingzhe, Zhao, Xiaowei, Wang, Rui, Stevens, Michael L. & Bale, Stuart D., ApJ, 963, 85
8. The Alpha-proton Differential Flow in the Alfvénic Young Solar Wind: from Sub-Alfvénic to Super-Alfvénic [11]
   Ran, Hao, Liu, Ying D., Chen, Chong & Mostafavi, Parisa, ApJ, 963, 82
9. Establishment and Application of an Interplanetary Disturbance Index Based on the Solar Wind–Magnetosphere Energy Coupling Function and the Spectral Whitening Method [0]
   Zhao, Xiaowei, Wang, Jingsong, Zhao, Mingxian, Liu, Ying D., Hu, Huidong, Liu, Mingzhe, Mao, Tian & Zong, Qiugang, ApJ, 970, 133

2023

1. On the Generation and Evolution of Switchbacks and the Morphology of the Alfvénic Transition: Low Mach-number Boundary Layers [24]
   Liu, Ying D., Ran, Hao, Hu, Huidong & Bale, Stuart D., ApJ, 944, 116
2. Observations of Mini Coronal Dimmings Caused by Small-scale Eruptions in the Quiet Sun [5]
   Wang, Rui, Liu, Ying D., Zhao, Xiaowei & Hu, Huidong, ApJ, 952, L29

2022

1. Multispacecraft Remote Sensing and In Situ Observations of the 2020 November 29 Coronal Mass Ejection and Associated Shock: From Solar Source to Heliospheric Impacts [3]
   Chen, Chong, Liu, Ying D. & Zhu, Bei, ApJ, 937, 44
2. 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
3. Properties of a Supercritical Quasi-perpendicular Interplanetary Shock Propagating in the Terrestrial Foreshock Region [3]
   Liu, Mingzhe, Yang, Zhongwei, Liu, Ying D., Lembége, Bertrand, Issautier, Karine, Wilson, L. B., Zhao, Siqi, Jagarlamudi, Vamsee Krishna, Zhao, Xiaowei, Huang, Jia & Chrysaphi, Nicolina, ApJS, 263, 11
4. Analysis of the Distribution, Rotation and Scale Characteristics of Solar Wind Switchbacks: Comparison between the First and Second Encounters of Parker Solar Probe [12]
   Meng, Ming-Ming, Liu, Ying D., Chen, Chong & Wang, Rui, Research in Astronomy and Astrophysics, 22, 035018
5. Relationship between Successive Flares in the Same Active Region and SHARP Parameters [5]
   Ran, Hao, Liu, Ying D., Guo, Yang & Wang, Rui, ApJ, 937, 43
6. Observations of the Outer Heliosphere, Heliosheath, and Interstellar Medium [48]
   Richardson, J. D., Burlaga, L. F., Elliott, H., Kurth, W. S., Liu, Y. D. & von Steiger, R., Space Science Reviews, 218, 35
7. Buildup of the Magnetic Flux Ropes in Homologous Solar Eruptions [6]
   Wang, Rui, Liu, Ying D., Yang, Shangbin & Hu, Huidong, ApJ, 925, 202
8. Simulation of Geomagnetically Induced Currents in a Low-Latitude 500 kV Power Network During a Solar Superstorm [6]
   Zhang, J. J., Yu, Y. Q., Chen, W. Q., Wang, C., Liu, Y. D., Liu, C. M. & Liu, L. G., Space Weather, 20, e2021SW003005
9. Solar Wind Charge Exchange Soft X-Ray Emissions in the Magnetosphere during an Interplanetary Coronal Mass Ejection Compared to Its Driven Sheath [14]
   Zhang, Yingjie, Sun, Tianran, Wang, Chi, Ji, Li, Carter, Jennifer. A., Sembay, Steve, Koutroumpa, Dimitra, Liu, Ying D., Liang, Guiyun, Liu, Wenhao, Sun, Wei & Zhao, Xiaowei, ApJ, 932, L1
10. Observations of a Flare-ignited Broad Quasiperiodic Fast-propagating Wave Train [18]
    Zhou, Xinping, Shen, Yuandeng, Liu, Ying D., Hu, Huidong, Su, Jiangtao, Tang, Zehao, Zhou, Chengrui, Duan, Yadan & Tan, Song, ApJ, 930, L5

2021

1. Macro Magnetic Holes Caused by Ripples in Heliospheric Current Sheet from Coordinated Imaging and Parker Solar Probe Observations [10]
   Chen, Chong, Liu, Ying D. & Hu, Huidong, ApJ, 921, 15
2. Propagation of large-scale solar wind events in the outer heliosphere from a numerical MHD simulation [6]
   Guo, XiaoCheng, Zhou, YuCheng, Wang, Chi & Liu, Ying D., Earth and Planetary Physics, 5, 223
3. Determination of Solar Wind Angular Momentum and Alfvén Radius from Parker Solar Probe Observations [0]
   Liu, Ying, Chen, Chong, Stevens, Michael & Liu, Mingzhe, essoar.10508304
4. Determination of Solar Wind Angular Momentum and Alfvén Radius from Parker Solar Probe Observations [23]
   Liu, Ying D., Chen, Chong, Stevens, Michael L. & Liu, Mingzhe, ApJ, 908, L41
5. Shock Properties and Associated Characteristics of Solar Energetic Particles in the 2017 September 10 Ground-level Enhancement Event [10]
   Zhu, Bei, Liu, Ying D., Kwon, Ryun-Young, Jin, Meng, Lee, L. C. & Xu, Xiaojun, ApJ, 921, 26

2020

1. Characteristics and Importance of "ICME-in-sheath" Phenomenon and Upper Limit for Geomagnetic Storm Activity [20]
   Liu, Ying D., Chen, Chong & Zhao, Xiaowei, ApJ, 897, L11
2. MMS Direct Observations of Kinetic-scale Shock Self-reformation [15]
   Yang, Zhongwei, Liu, Ying D., Johlander, Andreas, Parks, George K., Lavraud, Benoit, Lee, Ensang, Baumjohann, Wolfgang, Wang, Rui & Burch, James L., ApJ, 901, L6
3. PIC Simulations of Microinstabilities and Waves at Near-Sun Solar Wind Perpendicular Shocks: Predictions for Parker Solar Probe and Solar Orbiter [10]
   Yang, Zhongwei, Liu, Ying D., Matsukiyo, Shuichi, Lu, Quanming, Guo, Fan, Liu, Mingzhe, Xie, Huasheng, Gao, Xinliang & Guo, Jun, ApJ, 900, L24

2019

1. Characteristics of a Gradual Filament Eruption and Subsequent CME Propagation in Relation to a Strong Geomagnetic Storm [34]
   Chen, Chong, Liu, Ying D., Wang, Rui, Zhao, Xiaowei, Hu, Huidong & Zhu, Bei, ApJ, 884, 90
2. Effects of Coronal Density and Magnetic Field Distributions on a Global Solar EUV Wave [24]
   Hu, Huidong, Liu, Ying D., Zhu, Bei, Peter, Hardi, He, Wen, Wang, Rui & Yang, Zhongwei, ApJ, 878, 106
3. A Comparative Study of 2017 July and 2012 July Complex Eruptions: Are Solar Superstorms “Perfect Storms” in Nature? [31]
   Liu, Ying D., Zhao, Xiaowei, Hu, Huidong, Vourlidas, Angelos & Zhu, Bei, ApJS, 241, 15
4. Geometry, Kinematics, and Heliospheric Impact of a Large CME-driven Shock in 2017 September [40]
   Liu, Ying D., Zhu, Bei & Zhao, Xiaowei, ApJ, 871, 8
5. First Unambiguous Imaging of Large-scale Quasi-periodic Extreme-ultraviolet Wave or Shock [49]
   Shen, Yuandeng, Chen, P. F., Liu, Ying D., Shibata, Kazunari, Tang, Zehao & Liu, Yu, ApJ, 873, 22
6. The Structure of Solar Coronal Mass Ejections in the Extreme-ultraviolet Passbands [24]
   Song, H. Q., Zhang, J., Li, L. P., Liu, Y. D., Zhu, B., Wang, B., Zheng, R. S. & Chen, Y., ApJ, 887, 124
7. Quantifying the Propagation of Fast Coronal Mass Ejections from the Sun to Interplanetary Space by Combining Remote Sensing and Multi-point In Situ Observations [14]
   Zhao, Xiaowei, Liu, Ying D., Hu, Huidong & Wang, Rui, ApJ, 882, 122

2018

1. A Survey of Changes in Magnetic Helicity Flux on the Photosphere During Relatively Low-class Flares [13]
   Bi, Yi, Liu, Ying D., Liu, Yanxiao, Yang, Jiayan, Xu, Zhe & Ji, Kaifan, ApJ, 865, 139
2. A Stealth CME Bracketed between Slow and Fast Wind Producing Unexpected Geoeffectiveness [31]
   He, Wen, Liu, Ying D., Hu, Huidong, Wang, Rui & Zhao, Xiaowei, ApJ, 860, 78
3. Kinetic Properties of an Interplanetary Shock Propagating inside a Coronal Mass Ejection [10]
   Liu, Mingzhe, Liu, Ying D., Yang, Zhongwei, Wilson, L. B., III & Hu, Huidong, ApJ, 859, L4
4. Multi-spacecraft Observations of the Rotation and Nonradial Motion of a CME Flux Rope Causing an Intense Geomagnetic Storm [18]
   Liu, Yi A., Liu, Ying D., Hu, Huidong, Wang, Rui & Zhao, Xiaowei, ApJ, 854, 126
5. Extreme Space Weather Events: From Cradle to Grave [125]
   Riley, Pete, Baker, Dan, Liu, Ying D., Verronen, Pekka, Singer, Howard & Güdel, Manuel, Space Science Reviews, 214, 21
6. Homologous Large-amplitude Nonlinear Fast-mode Magnetosonic Waves Driven by Recurrent Coronal Jets [49]
   Shen, Yuandeng, Liu, Yu, Liu, Ying D., Su, Jiangtao, Tang, Zehao & Miao, Yuhu, ApJ, 861, 105
7. A Solar Eruption with Relatively Strong Geoeffectiveness Originating from Active Region Peripheral Diffusive Polarities [2]
   Wang, Rui, Liu, Ying D., Hu, Huidong & Zhao, Xiaowei, ApJ, 863, 81
8. Roles of Photospheric Motions and Flux Emergence in the Major Solar Eruption on 2017 September 6 [25]
   Wang, Rui, Liu, Ying D., Hoeksema, J. Todd, Zimovets, I. V. & Liu, Yang, ApJ, 869, 90
9. Prospective Out-of-ecliptic White-light Imaging of Coronal Mass Ejections Traveling through the Corona and Heliosphere [6]
   Xiong, Ming, Davies, Jackie A., Harrison, Richard A., Zhou, Yufen, Feng, Xueshang, Xia, Lidong, Li, Bo, Liu, Ying D., Hayashi, Keiji, Li, Huichao & Yang, Liping, ApJ, 852, 111
10. Impact of Shock Front Rippling and Self-reformation on the Electron Dynamics at Low-Mach-number Shocks [17]
    Yang, Zhongwei, Lu, Quanming, Liu, Ying D. & Wang, Rui, ApJ, 857, 36
11. Investigation of Energetic Particle Release Using Multi-point Imaging and In Situ Observations [19]
    Zhu, Bei, Liu, Ying D., Kwon, Ryun-Young & Wang, Rui, ApJ, 865, 138
12. Magnetic structure of solar flare regions producing hard X-ray pulsations [18]
    Zimovets, I. V., Wang, R., Liu, Y. D., Wang, C., Kuznetsov, S. A., Sharykin, I. N., Struminsky, A. B. & Nakariakov, V. M., Journal of Atmospheric and Solar-Terrestrial Physics, 174, 17

2017

1. Multi-spacecraft Observations of the Coronal and Interplanetary Evolution of a Solar Eruption Associated with Two Active Regions [13]
   Hu, Huidong, Liu, Ying D., Wang, Rui, Zhao, Xiaowei, Zhu, Bei & Yang, Zhongwei, ApJ, 840, 76
2. Geoeffective Properties of Solar Transients and Stream Interaction Regions [173]
   Kilpua, E. K. J., Balogh, A., von Steiger, R. & Liu, Y. D., Space Science Reviews, 212, 1271
3. Structure, Propagation, and Expansion of a CME-driven Shock in the Heliosphere: A Revisit of the 2012 July 23 Extreme Storm [31]
   Liu, Ying D., Hu, Huidong, Zhu, Bei, Luhmann, Janet G. & Vourlidas, Angelos, ApJ, 834, 158
4. Propagation and Interaction Properties of Successive Coronal Mass Ejections in Relation to a Complex Type II Radio Burst [10]
   Liu, Ying D., Zhao, Xiaowei & Zhu, Bei, ApJ, 849, 112
5. The Physical Processes of CME/ICME Evolution [260]
   Manchester, Ward, Kilpua, Emilia K. J., Liu, Ying D., Lugaz, Noé, Riley, Pete, Török, Tibor & Vršnak, Bojan, Space Science Reviews, 212, 1159
6. Pressure Pulses at Voyager 2: Drivers of Interstellar Transients? [39]
   Richardson, J. D., Wang, C., Liu, Y. D., Šafránková, J., Němeček, Z. & Kurth, W. S., ApJ, 834, 190
7. On a Solar Blowout Jet: Driving Mechanism and the Formation of Cool and Hot Components [94]
   Shen, Yuandeng, Liu, Ying D., Su, Jiangtao, Qu, Zhining & Tian, Zhanjun, ApJ, 851, 67
8. Successive Two-sided Loop Jets Caused by Magnetic Reconnection between Two Adjacent Filamentary Threads [36]
   Tian, Zhanjun, Liu, Yu, Shen, Yuandeng, Elmhamdi, Abouazza, Su, Jiangtao, Liu, Ying D. & Kordi, Ayman. S., ApJ, 845, 94
9. Prospective Out-of-ecliptic White-light Imaging of Interplanetary Corotating Interaction Regions at Solar Maximum [8]
   Xiong, Ming, Davies, Jackie A., Li, Bo, Yang, Liping, Liu, Ying D., Xia, Lidong, Harrison, Richard A., Keiji, Hayashi & Li, Huichao, ApJ, 844, 76
10. Propagation Characteristics of Two Coronal Mass Ejections from the Sun Far into Interplanetary Space [8]
    Zhao, Xiaowei, Liu, Ying D., Hu, Huidong & Wang, Rui, ApJ, 837, 4

2016

1. Sun-to-Earth Characteristics of the 2012 July 12 Coronal Mass Ejection and Associated Geo-effectiveness [45]
   Hu, Huidong, Liu, Ying D., Wang, Rui, Möstl, Christian & Yang, Zhongwei, ApJ, 829, 97
2. A small mission concept to the Sun-Earth Lagrangian L5 point for innovative solar, heliospheric and space weather science [31]
   Lavraud, B., Liu, Y., Segura, K., He, J., Qin, G., Temmer, M., Vial, J.-C., Xiong, M., Davies, J. A., Rouillard, A. P., Pinto, R., Auchère, F., Harrison, R. A., Eyles, C., Gan, W., Lamy, P., Xia, L., Eastwood, J. P., Kong, L., Wang, J., Wimmer-Schweingruber, R. F., Zhang, S., Zong, Q., Soucek, J., An, J., Prech, L., Zhang, A., Rochus, P., Bothmer, V., Janvier, M., Maksimovic, M., Escoubet, C. P., Kilpua, E. K. J., Tappin, J., Vainio, R., Poedts, S., Dunlop, M. W., Savani, N., Gopalswamy, N., Bale, S. D., Li, G., Howard, T., DeForest, C., Webb, D., Lugaz, N., Fuselier, S. A., Dalmasse, K., Tallineau, J., Vranken, D. & Fernández, J. G., Journal of Atmospheric and Solar-Terrestrial Physics, 146, 171
3. On Sun-to-Earth Propagation of Coronal Mass Ejections: II. Slow Events and Comparison with Others [60]
   Liu, Ying D., Hu, Huidong, Wang, Chi, Luhmann, Janet G., Richardson, John D., Yang, Zhongwei & Wang, Rui, ApJS, 222, 23
4. Transport of Solar Wind H⁺ and He⁺⁺ Ions across Earth’s Bow Shock [5]
   Parks, G. K., Lee, E., Fu, S. Y., Kim, H. E., Ma, Y. Q., Yang, Z. W., Liu, Y., Lin, N., Hong, J., Canu, P., Dandouras, I., Rème, H. & Goldstein, M. L., ApJ, 825, L27
5. Properties of the Fast Forward Shock Driven by the July 23 2012 Extreme Coronal Mass Ejection [36]
   Riley, Pete, Caplan, Ronald M., Giacalone, Joe, Lario, David & Liu, Ying, ApJ, 819, 57
6. 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
7. Sympathetic Solar Filament Eruptions [39]
   Wang, Rui, Liu, Ying D., Zimovets, Ivan, Hu, Huidong, Dai, Xinghua & Yang, Zhongwei, ApJ, 827, L12
8. Global Explicit Particle-in-cell Simulations of the Nonstationary Bow Shock and Magnetosphere [12]
   Yang, Zhongwei, Huang, Can, Liu, Ying D., Parks, George K., Wang, Rui, Lu, Quanming & Hu, Huidong, ApJS, 225, 13
9. Risk assessment of the extreme interplanetary shock of 23 July 2012 on low-latitude power networks [20]
   Zhang, J. J., Wang, C., Sun, T. R. & Liu, Y. D., Space Weather, 14, 259
10. Comparison of CME/Shock Propagation Models with Heliospheric Imaging and In Situ Observations [12]
    Zhao, Xinhua, Liu, Ying D., Inhester, Bernd, Feng, Xueshang, Wiegelmann, Thomas & Lu, Lei, ApJ, 830, 48
11. Solar Energetic Particle Event Associated with the 2012 July 23 Extreme Solar Storm [9]
    Zhu, Bei, Liu, Ying D., Luhmann, Janet G., Hu, Huidong, Wang, Rui & Yang, Zhongwei, ApJ, 827, 146

2015

1. 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
2. Statistical Study of Strong and Extreme Geomagnetic Disturbances and Solar Cycle Characteristics [57]
   Kilpua, E. K. J., Olspert, N., Grigorievskiy, A., Käpylä, M. J., Tanskanen, E. I., Miyahara, H., Kataoka, R., Pelt, J. & Liu, Y. D., ApJ, 806, 272
3. Plasma and Magnetic Field Characteristics of Solar Coronal Mass Ejections in Relation to Geomagnetic Storm Intensity and Variability [86]
   Liu, Ying D., Hu, Huidong, Wang, Rui, Yang, Zhongwei, Zhu, Bei, Liu, Yi A., Luhmann, Janet G. & Richardson, John D., ApJ, 809, L34
4. STEREO- Wind Radio Positioning of an Unusually Slow Drifting Event [6]
   Martínez-Oliveros, J. C., Raftery, C., Bain, H., Liu, Y., Pulupa, M., Saint-Hilaire, P., Higgins, P., Krupar, V., Krucker, Säm & Bale, S. D., Solar Physics, 290, 891
5. Strong coronal channelling and interplanetary evolution of a solar storm up to Earth and Mars [183]
   Möstl, Christian, Rollett, Tanja, Frahm, Rudy A., Liu, Ying D., Long, David M., Colaninno, Robin C., Reiss, Martin A., Temmer, Manuela, Farrugia, Charles J., Posner, Arik, Dumbović, Mateja, Janvier, Miho, Démoulin, Pascal, Boakes, Peter, Devos, Andy, Kraaikamp, Emil, Mays, Mona L. & Vršnak, Bojan, Nature Communications, 6, 7135
6. Fine Magnetic Structure and Origin of Counter-streaming Mass Flows in a Quiescent Solar Prominence [77]
   Shen, Yuandeng, Liu, Yu, Liu, Ying D., Chen, P. F., Su, Jiangtao, Xu, Zhi & Liu, Zhong, ApJ, 814, L17
7. The Role of Active Region Coronal Magnetic Field in Determining Coronal Mass Ejection Propagation Direction [47]
   Wang, Rui, Liu, Ying D., Dai, Xinghua, Yang, Zhongwei, Huang, Chong & Hu, Huidong, ApJ, 814, 80
8. Impact of Pickup Ions on the Shock Front Nonstationarity and Energy Dissipation of the Heliospheric Termination Shock: Two-dimensional Full Particle Simulations and Comparison with Voyager 2 Observations [34]
   Yang, Zhongwei, Liu, Ying D., Richardson, John D., Lu, Quanming, Huang, Can & Wang, Rui, ApJ, 809, 28

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. Observations of an extreme storm in interplanetary space caused by successive coronal mass ejections [246]
   Liu, Ying D., Luhmann, Janet G., Kajdič, Primož, Kilpua, Emilia K. J., Lugaz, Noé, Nitta, Nariaki V., Möstl, Christian, Lavraud, Benoit, Bale, Stuart D., Farrugia, Charles J. & Galvin, Antoinette B., Nature Communications, 5, 3481
3. Sun-to-Earth Characteristics of Two Coronal Mass Ejections Interacting Near 1 AU: Formation of a Complex Ejecta and Generation of a Two-step Geomagnetic Storm [59]
   Liu, Ying D., Yang, Zhongwei, Wang, Rui, Luhmann, Janet G., Richardson, John D. & Lugaz, Noé, ApJ, 793, L41
4. Propagation of the 2012 March Coronal Mass Ejections from the Sun to Heliopause [51]
   Liu, Ying D., Richardson, John D., Wang, Chi & Luhmann, Janet G., ApJ, 788, L28
5. Connecting Speeds, Directions and Arrival Times of 22 Coronal Mass Ejections from the Sun to 1 AU [155]
   Möstl, C., Amla, K., Hall, J. R., Liewer, P. C., De Jong, E. M., Colaninno, R. C., Veronig, A. M., Rollett, T., Temmer, M., Peinhart, V., Davies, J. A., Lugaz, N., Liu, Y. D., Farrugia, C. J., Luhmann, J. G., Vršnak, B., Harrison, R. A. & Galvin, A. B., ApJ, 787, 119
6. Simultaneous Transverse Oscillations of a Prominence and a Filament and Longitudinal Oscillation of Another Filament Induced by a Single Shock Wave [102]
   Shen, Yuandeng, Liu, Ying D., Chen, P. F. & Ichimoto, Kiyoshi, ApJ, 795, 130
7. Magnetic Field Restructuring Associated with Two Successive Solar Eruptions [31]
   Wang, Rui, Liu, Ying D., Yang, Zhongwei & Hu, Huidong, ApJ, 791, 84
8. Full Particle Electromagnetic Simulations of Entropy Generation across a Collisionless Shock [6]
   Yang, Zhongwei, Liu, Ying D., Parks, George K., Wu, Pin, Huang, Can, Shi, Run, Wang, Rui & Hu, Huidong, ApJ, 793, L11
9. Simulated (STEREO) Views of the Solar Wind Disturbances Following the Coronal Mass Ejections of 1 August 2010 [4]
   Zhang, Y., Du, A. M., Feng, X. S., Sun, W., Liu, Y. D., Fry, C. D., Deehr, C. S., Dryer, M., Zieger, B. & Xie, Y. Q., Solar Physics, 289, 319

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. Establishing a Stereoscopic Technique for Determining the Kinematic Properties of Solar Wind Transients based on a Generalized Self-similarly Expanding Circular Geometry [87]
   Davies, J. A., Perry, C. H., Trines, R. M. G. M., Harrison, R. A., Lugaz, N., Möstl, C., Liu, Y. D. & Steed, K., ApJ, 777, 167
4. On Sun-to-Earth Propagation of Coronal Mass Ejections [131]
   Liu, Ying D., Luhmann, Janet G., Lugaz, Noé, Möstl, Christian, Davies, Jackie A., Bale, Stuart D. & Lin, Robert P., ApJ, 769, 45
5. Reinterpretation of Slowdown of Solar Wind Mean Velocity in Nonlinear Structures Observed Upstream of Earth's Bow Shock [8]
   Parks, G. K., Lee, E., Lin, N., Fu, S. Y., McCarthy, M., Cao, J. B., Hong, J., Liu, Y., Shi, J. K., Goldstein, M. L., Canu, P., Dandouras, I. & Rème, H., ApJ, 771, L39
6. Heliospheric Imaging of 3D Density Structures During the Multiple Coronal Mass Ejections of Late July to Early August 2010 [38]
   Webb, D. F., Möstl, C., Jackson, B. V., Bisi, M. M., Howard, T. A., Mulligan, T., Jensen, E. A., Jian, L. K., Davies, J. A., de Koning, C. A., Liu, Y., Temmer, M., Clover, J. M., Farrugia, C. J., Harrison, R. A., Nitta, N., Odstrcil, D., Tappin, S. J. & Yu, H.-S., Solar Physics, 285, 317
7. Using Coordinated Observations in Polarized White Light and Faraday Rotation to Probe the Spatial Position and Magnetic Field of an Interplanetary Sheath [11]
   Xiong, Ming, Davies, Jackie A., Feng, Xueshang, Owens, Mathew J., Harrison, Richard A., Davis, Chris J. & Liu, Ying D., ApJ, 777, 32
8. Magnetic ramp scale at supercritical perpendicular collisionless shocks: Full particle electromagnetic simulations [10]
   Yang, Zhongwei, Lu, Quanming, Gao, Xinliang, Huang, Can, Yang, Huigen, Liu, Ying, Hu, Hongqiao & Han, Desheng, Physics of Plasmas, 20, 092116

2012

1. Investigation of the Formation and Separation of an Extreme-ultraviolet Wave from the Expansion of a Coronal Mass Ejection [111]
   Cheng, X., Zhang, J., Olmedo, O., Vourlidas, A., Ding, M. D. & Liu, Y., ApJ, 745, L5
2. Radio Signatures of Coronal-mass-ejection-Streamer Interaction and Source Diagnostics of Type II Radio Burst [66]
   Feng, S. W., Chen, Y., Kong, X. L., Li, G., Song, H. Q., Feng, X. S. & Liu, Ying, ApJ, 753, 21
3. An Analysis of the Origin and Propagation of the Multiple Coronal Mass Ejections of 2010 August 1 [86]
   Harrison, R. A., Davies, J. A., Möstl, C., Liu, Y., Temmer, M., Bisi, M. M., Eastwood, J. P., de Koning, C. A., Nitta, N., Rollett, T., Farrugia, C. J., Forsyth, R. J., Jackson, B. V., Jensen, E. A., Kilpua, E. K. J., Odstrcil, D. & Webb, D. F., ApJ, 750, 45
4. Interactions between Coronal Mass Ejections Viewed in Coordinated Imaging and in situ Observations [110]
   Liu, Ying D., Luhmann, Janet G., Möstl, Christian, Martinez-Oliveros, Juan C., Bale, Stuart D., Lin, Robert P., Harrison, Richard A., Temmer, Manuela, Webb, David F. & Odstrcil, Dusan, ApJ, 746, L15
5. The 2010 August 1 Type II Burst: A CME-CME Interaction and its Radio and White-light Manifestations [62]
   Martínez Oliveros, Juan Carlos, Raftery, Claire L., Bain, Hazel M., Liu, Ying, Krupar, Vratislav, Bale, Stuart & Krucker, Säm, ApJ, 748, 66
6. Multi-point Shock and Flux Rope Analysis of Multiple Interplanetary Coronal Mass Ejections around 2010 August 1 in the Inner Heliosphere [119]
   Möstl, C., Farrugia, C. J., Kilpua, E. K. J., Jian, L. K., Liu, Y., Eastwood, J. P., Harrison, R. A., Webb, D. F., Temmer, M., Odstrcil, D., Davies, J. A., Rollett, T., Luhmann, J. G., Nitta, N., Mulligan, T., Jensen, E. A., Forsyth, R., Lavraud, B., de Koning, C. A., Veronig, A. M., Galvin, A. B., Zhang, T. L. & Anderson, B. J., ApJ, 758, 10
7. Super-elastic collision of large-scale magnetized plasmoids in the heliosphere [86]
   Shen, Chenglong, Wang, Yuming, Wang, Shui, Liu, Ying, Liu, Rui, Vourlidas, Angelos, Miao, Bin, Ye, Pinzhong, Liu, Jiajia & Zhou, Zhenjun, Nature Physics, 8, 923
8. Characteristics of Kinematics of a Coronal Mass Ejection during the 2010 August 1 CME-CME Interaction Event [137]
   Temmer, Manuela, Vršnak, Bojan, Rollett, Tanja, Bein, Bianca, de Koning, Curt A., Liu, Ying, Bosman, Eckhard, Davies, Jackie A., Möstl, Christian, Žic, Tomislav, Veronig, Astrid M., Bothmer, Volker, Harrison, Richard, Nitta, Nariaki, Bisi, Mario, Flor, Olga, Eastwood, Jonathan, Odstrcil, Dusan & Forsyth, Robert, ApJ, 749, 57

2011

1. Solar Source and Heliospheric Consequences of the 2010 April 3 Coronal Mass Ejection: A Comprehensive View [87]
   Liu, Ying, Luhmann, Janet G., Bale, Stuart D. & Lin, Robert P., ApJ, 734, 84

2010

1. Reconstructing Coronal Mass Ejections with Coordinated Imaging and in Situ Observations: Global Structure, Kinematics, and Implications for Space Weather Forecasting [147]
   Liu, Ying, Thernisien, Arnaud, Luhmann, Janet G., Vourlidas, Angelos, Davies, Jackie A., Lin, Robert P. & Bale, Stuart D., ApJ, 722, 1762
2. Geometric Triangulation of Imaging Observations to Track Coronal Mass Ejections Continuously Out to 1 AU [184]
   Liu, Ying, Davies, Jackie A., Luhmann, Janet G., Vourlidas, Angelos, Bale, Stuart D. & Lin, Robert P., ApJ, 710, L82
3. STEREO and Wind observations of a fast ICME flank triggering a prolonged geomagnetic storm on 5-7 April 2010 [114]
   Möstl, C., Temmer, M., Rollett, T., Farrugia, C. J., Liu, Y., Veronig, A. M., Leitner, M., Galvin, A. B. & Biernat, H. K., Geophysical Research Letters, 37, L24103
4. Multi-spacecraft Observations of the 2008 January 2 CME in the Inner Heliosphere [15]
   Zhao, X. H., Feng, X. S., Xiang, C. Q., Liu, Y., Li, Z., Zhang, Y. & Wu, S. T., ApJ, 714, 1133

2009

1. Multispacecraft Observations of Magnetic Clouds and Their Solar Origins between 19 and 23 May 2007 [82]
   Kilpua, E. K. J., Liewer, P. C., Farrugia, C., Luhmann, J. G., Möstl, C., Li, Y., Liu, Y., Lynch, B. J., Russell, C. T., Vourlidas, A., Acuna, M. H., Galvin, A. B., Larson, D. & Sauvaud, J. A., Solar Physics, 254, 325
2. Relationship Between a Coronal Mass Ejection-Driven Shock and a Coronal Metric Type II Burst [82]
   Liu, Y., Luhmann, J. G., Bale, S. D. & Lin, R. P., ApJ, 691, L151
3. Coronal Mass Ejections and Global Coronal Magnetic Field Reconfiguration [37]
   Liu, Ying, Luhmann, Janet G., Lin, Robert P., Bale, Stuart D., Vourlidas, Angelos & Petrie, Gordon J. D., ApJ, 698, L51

2008

1. Deflection flows ahead of ICMEs as an indicator of curvature and geoeffectiveness [17]
   Liu, Y., Manchester, W. B., Richardson, J. D., Luhmann, J. G., Lin, R. P. & Bale, S. D., Journal of Geophysical Research (Space Physics), 113, A00B03
2. Solar wind structure in the outer heliosphere [18]
   Richardson, J. D., Liu, Y. & Wang, C., Advances in Space Research, 41, 237
3. Determining the LIC H density from the solar wind slowdown [61]
   Richardson, J. D., Liu, Y., Wang, C. & McComas, D. J., A&A, 491, 1

2006

1. Constraints on the global structure of magnetic clouds: Transverse size and curvature [134]
   Liu, Y., Richardson, J. D., Belcher, J. W., Wang, C., Hu, Q. & Kasper, J. C., Journal of Geophysical Research (Space Physics), 111, A12S03
2. Plasma depletion and mirror waves ahead of interplanetary coronal mass ejections [66]
   Liu, Y., Richardson, J. D., Belcher, J. W., Kasper, J. C. & Skoug, R. M., Journal of Geophysical Research (Space Physics), 111, A09108
3. Thermodynamic structure of collision-dominated expanding plasma: Heating of interplanetary coronal mass ejections [70]
   Liu, Y., Richardson, J. D., Belcher, J. W., Kasper, J. C. & Elliott, H. A., Journal of Geophysical Research (Space Physics), 111, A01102
4. Source and consequences of a large shock near 79 AU [32]
   Richardson, J. D., Liu, Y., Wang, C., McComas, D. J., Stone, E. C., Cummings, A. C., Burlaga, L. F., Acuna, M. H. & Ness, N. F., Geophysical Research Letters, 33, L23107
5. Correlation between energetic ion enhancements and heliospheric current sheet crossings in the outer heliosphere [14]
   Richardson, J. D., Stone, E. C., Cummings, A. C., Kasper, J. C., Zhang, M., Burlaga, L. F., Ness, N. F. & Liu, Y., Geophysical Research Letters, 33, L21112
6. ICMES at very large distances [42]
   Richardson, J. D., Liu, Y., Wang, C. & Burlaga, L. F., Advances in Space Research, 38, 528

2005

1. 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
2. A statistical study of the properties of interplanetary coronal mass ejections from 0.3 to 5.4 AU [187]
   Liu, Y., Richardson, J. D. & Belcher, J. W., Planetary and Space Science, 53, 3
3. Propagation of the October/November 2003 CMEs through the heliosphere [47]
   Richardson, J. D., Wang, C., Kasper, J. C. & Liu, Y., Geophysical Research Letters, 32, L03S03

2003

1. 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