Publications of Mei Zhang

A list of publications authored or co-authored by Mei Zhang, 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: 0000-0002-3141-747X

List of publications ordered by citations
Number of papers: 79 (refereed: 65)
No. of citations: 1539
First author papers: 32 (refereed: 22)

2025

1. Probing Solar Polar Regions [4]
   Deng, Yuanyong, Tian, Hui, Jiang, Jie, Yang, Shuhong, Li, Hao, Cameron, Robert, Gizon, Laurent, Harra, Louise, Wimmer-Schweingruber, Robert F., Auchère, Frédéric, Bai, Xianyong, Bellot, Rubio Luis, Chen, Linjie, Chen, Pengfei, Chitta, Lakshmi Pradeep, Davies, Jackie, Favata, Fabio, Feng, Li, Feng, Xueshang, Gan, Weiqun, Hassler, Don, He, Jiansen, Hou, Junfeng, Hou, Zhenyong, Jin, Chunlan, Li, Wenya, Lin, Jiaben, Nandy, Dibyendu, Pant, Vaibhav, Romoli, Marco, Sakao, Taro, Krishna Prasad, Sayamanthula, Shen, Fang, Su, Yang, Toriumi, Shin, Tripathi, Durgesh, Wang, Linghua, Wang, Jingjing, Xia, Lidong, Xiong, Ming, Yan, Yihua, Yang, Liping, Yang, Shangbin, Zhang, Mei, Zhou, Guiping, Zhu, Xiaoshuai, Wang, Jingxiu & Wang, Chi, Chinese Journal of Space Science, 45, 913
2. Long-Term Variations in Background Bias and Magnetic Field Noise in HSOS/SMFT Observations [0]
   Xu, Haiqing, Zhang, Hongqi, Liu, Suo, Su, Jiangtao, Deng, Yuanyong, Yang, Shangbin, Zhang, Mei & Lin, Jiaben, Universe, 11, 328

2024

1. Observation of a Large-Scale Filament Eruption Initiated by Two Small-Scale Erupting Filaments Pushing Out from Below [6]
   Song, Yongliang, Su, Jiangtao, Zhang, Qingmin, Zhang, Mei, Deng, Yuanyong, Bai, Xianyong, Liu, Suo, Yang, Xiao, Chen, Jie, Xu, Haiqing, Ji, Kaifan & Hu, Ziyao, Solar Physics, 299, 85
2. Magnetic helicity evolution during active region emergence and subsequent flare productivity [10]
   Sun, Zheng, Li, Ting, Wang, Quan, Yang, Shangbin, Zhang, Mei & Chen, Yajie, A&A, 686, A148

2023

1. Observations of pores and surrounding regions with CO 4.66 μm lines by BBSO/CYRA [1]
   Song, Yongliang, Bai, Xianyong, Yang, Xu, Cao, Wenda, Uitenbroek, Han, Deng, Yuanyong, Li, Xin, Yang, Xiao & Zhang, Mei, A&A, 669, A79
2. Change Ratios of Magnetic Helicity and Magnetic Free Energy During Major Solar Flares [9]
   Wang, Quan, Zhang, Mei, Yang, Shangbin, Yang, Xiao & Zhu, Xiaoshuai, Research in Astronomy and Astrophysics, 23, 095025
3. A Comparison of Co-temporal Vector Magnetograms Obtained with HMI/SDO and SP/Hinode [0]
   Zhang, Mei, Zhang, Haocheng & Jiang, Chengqing, Research in Astronomy and Astrophysics, 23, 125014
4. The Force-freeness of the Solar Photosphere: Revisit with New Approach and Large Data Sets [3]
   Zhang, Mei & Zhang, Haocheng, ApJ, 956, L17

2022

1. Blobs in a Solar EUV Jet [14]
   Chen, Jie, Erdélyi, Robertus, Liu, Jiajia, Deng, Yuanyong, Dover, Fionnlagh Mackenzie, Zhang, Qingmin, Zhang, Mei, Li, Leping & Su, Jiangtao, Frontiers in Astronomy and Space Sciences, 8, 238
2. Comparison of Two Methods for Calculating Magnetic Helicity in the Solar Corona [5]
   Wang, Quan, Yang, Shangbin, Zhang, Mei & Yang, Xiao, ApJ, 929, 122

2020

1. A New Comprehensive Data Set of Solar Filaments of 100 yr Interval. I. [10]
   Lin, GangHua, Zhu, GaoFei, Yang, Xiao, Song, YongLiang, Zhang, Mei, Liu, Suo, Wang, XiaoFan, Su, JiangTao, Zheng, Sheng, Zhang, JiaFeng, Tao, DongYi, Zeng, ShuGuang, Wang, HaiMin, Liu, Chang & Xu, Yan, ApJS, 249, 11
2. A White-light Flare Powered by Magnetic Reconnection in the Lower Solar Atmosphere [21]
   Song, Yongliang, Tian, Hui, Zhu, Xiaoshuai, Chen, Yajie, Zhang, Mei & Zhang, Jingwen, ApJ, 893, L13
3. Multiwavelength Observation of a Failed Eruption from a Helical Kink-unstable Prominence [13]
   Xu, Haiqing, Su, Jiangtao, Chen, Jie, Ruan, Guiping, Awasthi, Arun Kumar, Zhang, Hongqi, Zhang, Mei, Ji, Kaifan, Zhang, Yuzong & Liu, Jiajia, ApJ, 901, 121

2019

1. The Influence of Spatial Resolution on Estimating the Force-freeness of Magnetic Fieldtwo [4]
   Jiang, Cheng-qing & Mei, Zhang, Chinese Astronomy and Astrophysics, 43, 252

2018

1. Phase difference between long-term magnetic feature activity and flare activity of solar-type stars [1]
   He, Han, Wang, Huaning, Zhang, Mei, Mehrabi, Ahmad, Yan, Yan & Yun, Duo, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 217
2. Activity Analyses for Solar-type Stars Observed with Kepler. II. Magnetic Feature versus Flare Activity [30]
   He, Han, Wang, Huaning, Zhang, Mei, Mehrabi, Ahmad, Yan, Yan & Yun, Duo, ApJS, 236, 7
3. Observations of a White-light Flare Associated with a Filament Eruption [27]
   Song, Y. L., Guo, Y., Tian, H., Zhu, X. S., Zhang, M. & Zhu, Y. J., ApJ, 854, 64
4. 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

2017

1. Construction of a century solar chromosphere data set for solar activity related research [0]
   Lin, Ganghua, Wang, Xiao Fan, Yang, Xiao, Liu, Suo, Zhang, Mei, Wang, Haimin, Liu, Chang, Xu, Yan, Tlatov, Andrey, Demidov, Mihail, Borovik, Aleksandr & Golovko, Aleksey, Solar-Terrestrial Physics, 3, 5
2. On Estimating Force-freeness Based on Observed Magnetograms [6]
   Zhang, X. M., Zhang, M. & Su, J. T., ApJ, 834, 80

2016

1. Magnetic Helicity Reversals in a Cyclic Convective Dynamo [6]
   Miesch, Mark S., Zhang, Mei & Augustson, Kyle C., ApJ, 824, L15
2. Dark feature in EUV post-flare loops [1]
   Song, Qiao, Zhang, Mei, Wang, Jing-Song, Feng, Xue-Shang & Zhang, Xiao-Xin, Solar and Stellar Flares and their Effects on Planets (Editors: Kosovichev, A. G., Hawley, S. L. & Heinzel, P.), IAU Symposium, 320, p. 95
3. On the Relationship Between Sunspot Structure and Magnetic Field Changes Associated with Solar Flares [15]
   Song, Y. L. & Zhang, M., ApJ, 826, 173
4. Observations of Oppositely Directed Umbral Wavefronts Rotating in Sunspots Obtained from the New Solar Telescope of BBSO [34]
   Su, J. T., Ji, K. F., Cao, W., Banerjee, D., Priya, T. G., Zhao, J. S., Bai, X. Y., Chen, J., Zhang, M. & Ji, H. S., ApJ, 817, 117
5. Interference of the Running Waves at Light Bridges of a Sunspot [19]
   Su, J. T., Ji, K. F., Banerjee, D., Cao, W. D., Priya, T. G., Zhao, J. S., Yu, S. J., Ji, H. S. & Zhang, M., ApJ, 816, 30

2015

1. Effects of the Non-Radial Magnetic Field on Measuring Magnetic Helicity Transport across the Solar Photosphere [2]
   Song, Y. L. & Zhang, M., ApJ, 804, 102
2. Correlation Between CME Occurrence Rate and Current Helicity in the Global Magnetic Field of Solar Cycle 23 [2]
   Wang, Chuanyu & Zhang, Mei, Solar Physics, 290, 811

2013

1. Solar cycle variation of helicity characteristics indicated by SP/Hinode [2]
   Hao, Juan & Zhang, Mei, Solar and Astrophysical Dynamos and Magnetic Activity (Editors: Kosovichev, Alexander G., de Gouveia Dal Pino, Elisabete & Yan, Yihua), IAU Symposium, 294, p. 149
2. Helicity transport from solar convection zone to interplanetary space [3]
   Zhang, Mei, Solar and Astrophysical Dynamos and Magnetic Activity (Editors: Kosovichev, Alexander G., de Gouveia Dal Pino, Elisabete & Yan, Yihua), IAU Symposium, 294, p. 505

2012

1. Vector magnetic field measurement and helicity of active regions [0]
   Zhang, M., Deng, Y. Y. & Zhang, H. Q., EAS Publications Series (Editors: Faurobert, M., Fang, C. & Corbard, T.), EAS Publications Series, 55, p. 93
2. Coronal Mass Ejections as a Result of Magnetic Helicity Accumulation [1]
   Zhang, M., Fifth Hinode Science Meeting (Editors: Golub, L., De Moortel, I. & Shimizu, T.), Astronomical Society of the Pacific Conference Series, 456, p. 145
3. Coronal Mass Ejection as a Result of Magnetic Helicity Accumulation [2]
   Zhang, M., Hinode-3: The 3rd Hinode Science Meeting (Editors: Sekii, T., Watanabe, T. & Sakurai, T.), Astronomical Society of the Pacific Conference Series, 454, p. 399
4. Magnetic Helicity of Self-similar Axisymmetric Force-free Fields [22]
   Zhang, Mei, Flyer, Natasha & Chye Low, Boon, ApJ, 755, 78

2011

1. Hemispheric Helicity Trend for Solar Cycle 24 [52]
   Hao, Juan & Zhang, Mei, ApJ, 733, L27
2. Hemispheric helicity sign rule and its solar cycle dependence [1]
   Zhang, M., Hao, J. & Wang, C. Y., Astronomical Society of India Conference Series, Astronomical Society of India Conference Series, 2, p. 155

2010

1. Hanle signatures of the coronal magnetic field in the linear polarization of the hydrogen Lα line [15]
   Derouich, M., Auchère, F., Vial, J. C. & Zhang, M., A&A, 511, A7
2. Three-dimensional Morphology of a Coronal Prominence Cavity [103]
   Gibson, S. E., Kucera, T. A., Rastawicki, D., Dove, J., de Toma, G., Hao, J., Hill, S., Hudson, H. S., Marqué, C., McIntosh, P. S., Rachmeler, L., Reeves, K. K., Schmieder, B., Schmit, D. J., Seaton, D. B., Sterling, A. C., Tripathi, D., Williams, D. R. & Zhang, M., ApJ, 724, 1133
3. A Hemispheric Helicity Sign Rule Indicated by Large-scale Photospheric Magnetic Fields at Three Phases of Solar Cycle 23 [26]
   Wang, Chuanyu & Zhang, Mei, ApJ, 720, 632

2009

1. The influence of the stray-light component in determining coronal temperature structures [1]
   Hao, Juan & Zhang, Mei, Science in China: Physics, Mechanics and Astronomy, 52, 1728
2. Current helicity pattern of large-scale magnetic field on the photosphere [5]
   Wang, Chuanyu & Zhang, Mei, Science in China: Physics, Mechanics and Astronomy, 52, 1713
3. A Cross-Comparison of Cotemporal Magnetograms Obtained with MDI/SOHO and SP/ Hinode [19]
   Wang, D., Zhang, M., Li, H. & Zhang, H. Q., Solar Physics, 260, 233
4. A comparison of co-temporal magnetograms obtained with the Huairou magnetograph and the Spectro-Polarimeter on board Hinode [12]
   Wang, Dong, Zhang, Mei, Li, Hui & Zhang, Hongqi, Science in China: Physics, Mechanics and Astronomy, 52, 1707

2008

1. The Dependence of the Helicity Bound of Force-Free Magnetic Fields on Boundary Conditions [44]
   Zhang, Mei & Flyer, Natasha, ApJ, 683, 1160
2. On the Relationship between Flux Emergence and CME Initiation [41]
   Zhang, Yin, Zhang, Mei & Zhang, Hongqi, Solar Physics, 250, 75

2007

1. Vector magnetic field measurement at Huairou and helicity of active regions [2]
   Zhang, M., Deng, Y. Y. & Zhang, H. Q., Advances in Space Research, 39, 1741
2. A statistical study on the relationship between surface field variation and CME initiation [5]
   Zhang, Y., Zhang, M. & Zhang, H. Q., Advances in Space Research, 39, 1762

2006

1. Helicity observation of weak and strong fields [1]
   Zhang, M., Proceedings of the ILWS Workshop (Editors: Gopalswamy, N. & Bhattacharyya, A.), p. 34
2. Helicity Observations of Weak and Strong Fields [61]
   Zhang, Mei, ApJ, 646, L85
3. Magnetic Field Confinement in the Corona: The Role of Magnetic Helicity Accumulation [120]
   Zhang, Mei, Flyer, Natasha & Low, Boon Chye, ApJ, 644, 575

2005

1. The Hydromagnetic Nature of Solar Coronal Mass Ejections [169]
   Zhang, Mei & Low, Boon Chye, Annual Review of Astronomy and Astrophysics, 43, 103

2004

1. Experience in setting up a PC cluster [0]
   Lin, Ganghua & Zhang, Mei, Optimizing Scientific Return for Astronomy through Information Technologies (Editors: Quinn, Peter J. & Bridger, Alan), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 5493, p. 512
2. Magnetostatic Structures of the Solar Corona. III. Normal and Inverse Quiescent Prominences [33]
   Low, B. C. & Zhang, M., ApJ, 609, 1098
3. Global magnetic-field reversal in the corona [6]
   Low, Boon Chye & Zhang, Mei, Solar Variability and its Effects on Climate. Geophysical Monograph 141 (Editors: Pap, Judit M., Fox, Peter, Frohlich, Claus, Hudson, Hugh S., Kuhn, Jeffrey, McCormack, John, North, Gerald, Sprigg, William & Wu, S. T.), 141, p. 51
4. Magnetic Energy Storage in the Two Hydromagnetic Types of Solar Prominences [38]
   Zhang, M. & Low, B. C., ApJ, 600, 1043

2003

1. Magnetic Flux Emergence into the Solar Corona. III. The Role of Magnetic Helicity Conservation [60]
   Zhang, M. & Low, B. C., ApJ, 584, 479
2. The Dynamical Morphologies of Flares Associated with the Two Types of Solar Coronal Mass Ejections [25]
   Zhang, Mei & Golub, Leon, ApJ, 595, 1251

2002

1. The Hydromagnetic Origin of the Two Dynamical Types of Solar Coronal Mass Ejections [112]
   Low, B. C. & Zhang, M., ApJ, 564, L53
2. A Quasi-One-Dimensional Model for a Solar Flux Tube [0]
   Yang, Zhi-Liang, Zhang, Hong-Qi, Zhang, Mei & Feng, Xue-Shang, Chinese Physics Letters, 19, 1217
3. Coronal response to the emergence of new magnetic flux [0]
   Zhang, M., Cospar, 14, 125
4. Magnetic Flux Emergence into the Solar Corona. II. Global Magnetic Fields with Current Sheets [8]
   Zhang, M. & Low, B. C., ApJ, 576, 1005
5. The Timing of Flares Associated with the Two Dynamical Types of Solar Coronal Mass Ejections [44]
   Zhang, M., Golub, L., DeLuca, E. & Burkepile, J., ApJ, 574, L97

2001

1. TRACE Emission Heights Estimated From TRACE Limb Observations [2]
   Zhang, M., Recent Insights into the Physics of the Sun and Heliosphere: Highlights from SOHO and Other Space Missions (Editors: Brekke, P\ral, Fleck, Bernhard & Gurman, Joseph B.), IAU Symposium, 203, p. 431
2. A Comparison of Coordinated TRACE and EIT Observations [0]
   Zhang, M., Recent Insights into the Physics of the Sun and Heliosphere: Highlights from SOHO and Other Space Missions (Editors: Brekke, P\ral, Fleck, Bernhard & Gurman, Joseph B.), IAU Symposium, 203, p. 428
3. Magnetic Flux Emergence into the Solar Corona. I. Its Role for the Reversal of Global Coronal Magnetic Fields [46]
   Zhang, M. & Low, B. C., ApJ, 561, 406
4. Scientific objective adjustment and band selection for Extreme Ultraviolet Telescope in SST [0]
   Zhang, Mei, Ye, Binxun & Ai, Guoxiang, Publications of the Beijing Astronomical Observatory, 37, 99

2000

1. Topology of Magnetic Field and Coronal Heating in Solar Active Regions - II. The Role of Quasi-Separatrix Layers [38]
   Wang, Huaning, Yan, Yihua, Sakurai, Takashi & Zhang, Mei, Solar Physics, 197, 263
2. Similarities between chromospheric and photospheric quiet-Sun magnetograms [21]
   Zhang, Hongqi & Zhang, Mei, Solar Physics, 196, 269
3. Twist of Magnetic Fields in Solar Active Regions. [1]
   Zhang, Hongqi, Tian, Lirong, Bao, Shudong & Zhang, Mei, Journal of Astrophysics and Astronomy, 21, 245
4. Dependence of the canopy height of solar magnetic flux tubes on its definition [7]
   Zhang, Mei & Zhang, Hongqi, Solar Physics, 194, 29
5. A comparison between photospheric and chromospheric quiet-Sun magnetograms [17]
   Zhang, Mei & Zhang, Hongqi, Solar Physics, 194, 19

1999

1. A survey of flares and current helicity in active regions [63]
   Bao, S. D., Zhang, H. Q., Ai, G. X. & Zhang, M., Astronomy and Astrophysics Supplement Series, 139, 311
2. Different spatial structures between network regions and active regions indicated by TRACE 171 Å observation [12]
   Zhang, M., Zhang, H. Q., Ai, G. X. & Wang, H. N., Solar Physics, 190, 79
3. Different magnetic features between solar polar and equatorial magnetic fields [6]
   Zhang, M. & Zhang, H. Q., A&A, 352, 317
4. A Calibration Method for Wide-Field Multicolor Photometric Systems [24]
   Zhou, Xu, Chen, Jiansheng, Xu, Wen, Zhang, Mei, Jiang, Zhaoji, Zheng, Zhongyuan & Zhu, Jin, Publications of the Astronomical Society of the Pacific, 111, 909

1997

1. A model of population synthesis and the color evolution of galaxies [0]
   Xu, Wen, Yu, Yun-qiang, Zhang, Mei, Zhou, Xu & Chen, Jian-sheng, Chinese Astronomy and Astrophysics, 21, 285

1993

1. Metallicity and star formation history of globular clusters [3]
   Zhang, Mei & Ma, Er, Chinese Astronomy and Astrophysics, 17, 43
2. Metallicity and star formation history of globular clusters [0]
   Zhang, Mei & Ma, Er, Acta Astrophysica Sinica, 12, 349

1991

1. Compactness of globular cluster and its evolution [0]
   Zhang, Mei & Ma, Er, Chinese Astronomy and Astrophysics, 15, 251
2. Compactness of globular cluster and its evolution [0]
   Zhang, Mei & Ma, Er, Acta Astrophysica Sinica, 11, 128