Publications of Linghua Wang

A list of publications authored or co-authored by Linghua Wang, 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: 0000-0001-7309-4325

List of publications ordered by citations
Number of papers: 93 (refereed: 92)
No. of citations: 2198
First author papers: 12 (refereed: 12)

2025

1. Resonant interactions between suprathermal protons and ion-scale waves near an interplanetary shock [0]
   Li, Xing-Yu, Yang, Liu, Heidrich-Meisner, Verena, Wimmer-Schweingruber, Robert F., Zong, Qiu-Gang, Wang, Linghua, Berger, Lars, Jentsch, Erik, Keilbach, Duncan, Hecht, Maximilian & Rodríguez-Pacheco, Javier, A&A, 693, A275
2. Energetic proton bursts downstream of an interplanetary shock [0]
   Yang, L., Li, X. -Y., Heidrich-Meisner, V., Wimmer-Schweingruber, R. F., Wang, L., Kollhoff, A., Zhu, X., Nicolaou, G., Ding, Z., Berger, L., Liu, H., Rodríguez-Pacheco, J., Mason, G. M. & Ho, G. C., A&A, 695, A270

2024

1. Evolution of Electron Acceleration by Corotating Interaction Region Shocks at 1 au [1]
   Guo, Xinnian, Wang, Linghua, Li, Wenyan, Ma, Qianyi, Yang, Liu, Wimmer-Schweingruber, Robert F. & Bale, Stuart D., ApJ, 966, L12
2. Solar Eruptive Phenomena Associated with Solar Energetic Electron Spectral Types [2]
   Wang, Wen, Wang, Linghua, Li, Wenyan, Krucker, Säm, Wimmer-Schweingruber, Robert F. & Sheng, Zheng, ApJ, 969, 164
3. Dynamic acceleration of energetic protons by an interplanetary collisionless shock [4]
   Yang, L., Heidrich-Meisner, V., Wang, W., Wimmer-Schweingruber, R. F., Wang, L., Kollhoff, A., Berger, L., Pacheco, D., Xu, Z., Rodríguez-Pacheco, J. & Ho, G. C., A&A, 686, A132

2023

1. The 2013 November 12 Solar Energetic Electron Event Associated with Solar Jets [4]
   Wang, Wen, Battaglia, Andrea Francesco, Krucker, Säm & Wang, Linghua, ApJ, 950, 118
2. Energy Spectrum of Solar Energetic Electron Events over 25 Years [5]
   Wang, Wen, Wang, Linghua, Krucker, Säm & Wimmer-Schweingruber, Robert F., ApJ, 948, 51
3. Statistical Study of Release Time and Its Energy Dependence of In Situ Energetic Electrons in Impulsive Solar Flares [4]
   Wu, Xiangyu, Li, Gang, Zhao, Lulu, Effenberger, Frederic, Wang, Linghua & Yao, Shuo, Journal of Geophysical Research (Space Physics), 128, e2022JA030939

2022

1. Acceleration of Solar Wind Suprathermal Electrons at the Earth's Bow Shock [8]
   Liu, Zixuan, Wang, Linghua & Guo, Xinnian, ApJ, 935, 39
2. Interplanetary energetic electrons observed in Earth's polar cusp/cap/lobes [5]
   Wang, Linghua, Reviews of Modern Plasma Physics, 6, 12

2021

1. Coronal Microjets in Quiet-Sun Regions Observed with the Extreme Ultraviolet Imager on Board the Solar Orbiter [32]
   Hou, Zhenyong, Tian, Hui, Berghmans, David, Chen, Hechao, Teriaca, Luca, Schühle, Udo, Gao, Yuhang, Chen, Yajie, He, Jiansen, Wang, Linghua & Bai, Xianyong, ApJ, 918, L20
2. Constraints on the Electron Acceleration Process in Solar Flare: A Case Study [5]
   Li, G., Wu, X., Effenberger, F., Zhao, L., Lesage, S., Bian, N. & Wang, L., Geophysical Research Letters, 48, e95138
3. Solar Wind 0.15-1.5 keV Electrons around Corotating Interaction Regions at 1 au [5]
   Tao, Jiawei, Wang, Linghua, Li, Gang, Wimmer-Schweingruber, Robert F., Salem, Chadi, Jian, Lan K. & Bale, Stuart D., ApJ, 922, 198
4. Solar Energetic Electrons Entering the Earth's Cusp/Lobe [6]
   Wang, Linghua, Zong, Qiugang, Shi, Quanqi, Wimmer-Schweingruber, Robert F. & Bale, Stuart D., ApJ, 910, 12
5. Solar Energetic Electron Events Associated with Hard X-Ray Flares [16]
   Wang, Wen, Wang, Linghua, Krucker, Säm, Mason, Glenn M., Su, Yang & Bučík, Radoslav, ApJ, 913, 89
6. Detection of Energy Cutoffs in Flare-accelerated Electrons [9]
   Xia, Fanxiaoyu, Su, Yang, Wang, Wen, Wang, Linghua, Warmuth, Alexander, Gan, Weiqun & Li, Youping, ApJ, 908, 111

2020

1. Pan-Spectrum Fitting Formula for Suprathermal Particles [18]
   Liu, Zixuan, Wang, Linghua, Wimmer-Schweingruber, Robert F., Krucker, Säm. & Mason, Glenn M., Journal of Geophysical Research (Space Physics), 125, e28702
2. Case Study of Solar Wind Suprathermal Electron Acceleration at the Earth's Bow Shock [11]
   Liu, Zixuan, Wang, Linghua, Shi, Quanqi, Oka, Mitsuo, Yang, Liu, Wimmer-Schweingruber, Robert F., He, Jiansen, Tian, Hui & Bale, Stuart D., ApJ, 889, L2
3. Isotropic Scaling Features Measured Locally in the Solar Wind Turbulence with Stationary Background Field [14]
   Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen, Yang, Liping & Wang, Linghua, ApJ, 892, 138
4. Quiet-time Solar Wind Suprathermal Electrons of Different Solar Origins [3]
   Yang, Liu, Wang, Linghua, Zhao, Liang, Tao, Jiawei, Li, Gang, Wimmer-Schweingruber, Robert F., He, Jiansen, Tian, Hui & Bale, Stuart D., ApJ, 896, L5
5. The Pitch-angle Distributions of Suprathermal Ions near an Interplanetary Shock [9]
   Yang, Liu, Berger, Lars, Wimmer-Schweingruber, Robert F., Wang, Linghua, Yu, Jia, Galvin, Antoinette B. & Möbius, Eberhard, ApJ, 888, L22

2019

1. Flame-like Ellerman Bombs and Their Connection to Solar Ultraviolet Bursts [50]
   Chen, Yajie, Tian, Hui, Peter, Hardi, Samanta, Tanmoy, Yurchyshyn, Vasyl, Wang, Haimin, Cao, Wenda, Wang, Linghua & He, Jiansen, ApJ, 875, L30
2. Dependence of 3D Self-correlation Level Contours on the Scales in the Inertial Range of Solar Wind Turbulence [8]
   Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen & Wang, Linghua, ApJ, 883, L9
3. 3D Feature of Self-correlation Level Contours at 10¹⁰ cm Scale in Solar Wind Turbulence [6]
   Wu, Honghong, Tu, Chuanyi, Wang, Xin, He, Jiansen & Wang, Linghua, ApJ, 882, 21
4. Electron Acceleration by ICME-driven Shocks at 1 au [23]
   Yang, Liu, Wang, Linghua, Li, Gang, Wimmer-Schweingruber, Robert F., He, Jiansen, Tu, Chuanyi, Tian, Hui & Bale, Stuart D., ApJ, 875, 104
5. Statistical Analysis of Interplanetary Magnetic Field Path Lengths from Solar Energetic Electron Events Observed by WIND [27]
   Zhao, Lulu, Li, Gang, Zhang, Ming, Wang, Linghua, Moradi, Ashraf & Effenberger, Frederic, ApJ, 878, 107

2018

1. ³He-rich Solar Energetic Particles from Sunspot Jets [36]
   Bučík, Radoslav, Wiedenbeck, Mark E., Mason, Glenn M., Gómez-Herrero, Raúl, Nitta, Nariaki V. & Wang, Linghua, ApJ, 869, L21
2. Transport Modeling of Interplanetary Electrons in the 2002 October 20 Solar Particle Event [13]
   Dröge, W., Kartavykh, Y. Y., Wang, L., Telloni, D. & Bruno, R., ApJ, 869, 168
3. Angular Independence of Break Position for Magnetic Power Spectral Density in Solar Wind Turbulence [20]
   Duan, Die, He, Jiansen, Pei, Zhongtian, Huang, Shiyong, Wu, Honghong, Verscharen, Daniel & Wang, Linghua, ApJ, 865, 89
4. A New Method to Comprehensively Diagnose Shock Waves in the Solar Atmosphere Based on Simultaneous Spectroscopic and Imaging Observations [5]
   Ruan, Wenzhi, Yan, Limei, He, Jiansen, Zhang, Lei, Wang, Linghua & Wei, Yong, ApJ, 860, 99
5. Frequently Occurring Reconnection Jets from Sunspot Light Bridges [79]
   Tian, Hui, Yurchyshyn, Vasyl, Peter, Hardi, Solanki, Sami K., Young, Peter R., Ni, Lei, Cao, Wenda, Ji, Kaifan, Zhu, Yingjie, Zhang, Jingwen, Samanta, Tanmoy, Song, Yongliang, He, Jiansen, Wang, Linghua & Chen, Yajie, ApJ, 854, 92
6. Possible Noise Nature of Elsässer Variable z^- in Highly Alfvénic Solar Wind Fluctuations [12]
   Wang, X., Tu, C. -Y., He, J. -S., Wang, L. -H., Yao, S. & Zhang, L., Journal of Geophysical Research (Space Physics), 123, 57
7. Ion-Scale Spectral Break in the Normal Plasma Beta Range in the Solar Wind Turbulence [22]
   Wang, X., Tu, C. -Y., He, J. -S. & Wang, L. -H., Journal of Geophysical Research (Space Physics), 123, 68
8. Formation of Cool and Warm Jets by Magnetic Flux Emerging from the Solar Chromosphere to Transition Region [21]
   Yang, Liping, Peter, Hardi, He, Jiansen, Tu, Chuanyi, Wang, Linghua, Zhang, Lei & Yan, Limei, ApJ, 852, 16
9. Coexistence of Slow-mode and Alfvén-mode Waves and Structures in 3D Compressive MHD Turbulence [14]
   Yang, Liping, Zhang, Lei, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Wang, Xin & Wang, Linghua, ApJ, 866, 41
10. Disappearance of Anisotropic Intermittency in Large-amplitude MHD Turbulence and Its Comparison with Small-amplitude MHD Turbulence [8]
    Yang, Liping, Zhang, Lei, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Wang, Xin & Wang, Linghua, ApJ, 855, 69
11. The Strongest Acceleration of >40 keV Electrons by ICME-driven Shocks at 1 au [17]
    Yang, Liu, Wang, Linghua, Li, Gang, Wimmer-Schweingruber, Robert F., He, Jiansen, Tu, Chuanyi, Tian, Hui & Bale, Stuart D., ApJ, 853, 89
12. Dark Structures in Sunspot Light Bridges [11]
    Zhang, Jingwen, Tian, Hui, Solanki, Sami K., Wang, Haimin, Peter, Hardi, Ahn, Kwangsu, Xu, Yan, Zhu, Yingjie, Cao, Wenda, He, Jiansen & Wang, Linghua, ApJ, 865, 29
13. New Magnetospheric Substorm Injection Monitor: Image Electron Spectrometer On Board a Chinese Navigation IGSO Satellite [13]
    Zong, Qiugang, Wang, Yongfu, Zou, Hong, Wang, Linghua, Rankin, Robert & Zhang, Xiaoxin, Space Weather, 16, 121

2017

1. Numerical Study of Erosion, Heating, and Acceleration of the Magnetic Cloud as Impacted by Fast Shock [10]
   Mao, Shoudi, He, Jiansen, Zhang, Lei, Yang, Liping & Wang, Linghua, ApJ, 842, 109
2. A Study on Sunward Propagating Alfvénic Fluctuations With a Power Law Spectrum Observed by the Wind Spacecraft [3]
   Wu, Honghong, Wang, Xin, Tu, Chuanyi, Wang, Linghua, He, Jiansen & Tian, Hui, Journal of Geophysical Research (Space Physics), 122, 9768
3. Formation and Properties of Tangential Discontinuities in Three-dimensional Compressive MHD Turbulence [23]
   Yang, Liping, Zhang, Lei, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Wang, Xin & Wang, Linghua, ApJ, 851, 121
4. Influence of Intermittency on the Quasi-perpendicular Scaling in Three-dimensional Magnetohydrodynamic Turbulence [14]
   Yang, Liping, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Zhang, Lei, Wang, Xin, Marsch, Eckart & Wang, Linghua, ApJ, 846, 49
5. Multiscale Pressure-Balanced Structures in Three-Dimensional Magnetohydrodynamic Turbulence [20]
   Yang, Liping, He, Jiansen, Tu, Chuanyi, Li, Shengtai, Zhang, Lei, Marsch, Eckart, Wang, Linghua, Wang, Xin & Feng, Xueshang, ApJ, 836, 69
6. Surge-like Oscillations above Sunspot Light Bridges Driven by Magnetoacoustic Shocks [37]
   Zhang, Jingwen, Tian, Hui, He, Jiansen & Wang, Linghua, ApJ, 838, 2

2016

1. Compressional ULF wave modulation of energetic particles in the inner magnetosphere [14]
   Liu, H., Zong, Q. -G., Zhou, X. -Z., Fu, S. Y., Rankin, R., Wang, L. -H., Yuan, C. J., Wang, Y. F., Baker, D. N., Blake, J. B. & Kletzing, C. A., Journal of Geophysical Research (Space Physics), 121, 6262
2. Kinetic Simulation of Slow Magnetosonic Waves and Quasi-Periodic Upflows in the Solar Corona [17]
   Ruan, Wenzhi, He, Jiansen, Zhang, Lei, Vocks, Christian, Marsch, Eckart, Tu, Chuanyi, Peter, Hardi & Wang, Linghua, ApJ, 825, 58
3. Scale-dependent Normalized Amplitude and Weak Spectral Anisotropy of Magnetic Field Fluctuations in the Solar Wind Turbulence [31]
   Wang, Xin, Tu, Chuanyi, Marsch, Eckart, He, Jiansen & Wang, Linghua, ApJ, 816, 15
4. Spectral Anisotropy of Elsässer Variables in Two-dimensional Wave-vector Space as Observed in the Fast Solar Wind Turbulence [18]
   Yan, Limei, He, Jiansen, Zhang, Lei, Tu, Chuanyi, Marsch, Eckart, Chen, Christopher H. K., Wang, Xin, Wang, Linghua & Wicks, Robert T., ApJ, 816, L24

2015

1. Evidence of Landau and Cyclotron Resonance between Protons and Kinetic Waves in Solar Wind Turbulence [97]
   He, Jiansen, Wang, Linghua, Tu, Chuanyi, Marsch, Eckart & Zong, Qiugang, ApJ, 800, L31
2. Sunward Propagating Alfvén Waves in Association with Sunward Drifting Proton Beams in the Solar Wind [31]
   He, Jiansen, Pei, Zhongtian, Wang, Linghua, Tu, Chuanyi, Marsch, Eckart, Zhang, Lei & Salem, Chadi, ApJ, 805, 176
3. Proton Heating in Solar Wind Compressible Turbulence with Collisions between Counter-propagating Waves [44]
   He, Jiansen, Tu, Chuanyi, Marsch, Eckart, Chen, Christopher H. K., Wang, Linghua, Pei, Zhongtian, Zhang, Lei, Salem, Chadi S. & Bale, Stuart D., ApJ, 813, L30
4. Asymptotic Theory of Solar Wind Electrons [31]
   Kim, Sunjung, Yoon, Peter H., Choe, G. S. & Wang, Linghua, ApJ, 806, 32
5. Solar Sources of ³He-rich Solar Energetic Particle Events in Solar Cycle 24 [44]
   Nitta, Nariaki V., Mason, Glenn M., Wang, Linghua, Cohen, Christina M. S. & Wiedenbeck, Mark E., ApJ, 806, 235
6. Solar Wind ∼20-200 keV Superhalo Electrons at Quiet Times [42]
   Wang, Linghua, Yang, Liu, He, Jiansen, Tu, Chuanyi, Pei, Zhongtian, Wimmer-Schweingruber, Robert F. & Bale, Stuart D., ApJ, 803, L2
7. The Spectral Features of Low-amplitude Magnetic Fluctuations in the Solar Wind and Their Comparison with Moderate-amplitude Fluctuations [24]
   Wang, Xin, Tu, Chuanyi, He, Jiansen, Marsch, Eckart, Wang, Linghua & Salem, Chadi, ApJ, 810, L21
8. The upstream-propagating Alfvénic fluctuations with power law spectra in the upstream region of the Earth's bow shock [14]
   Wang, Xin, Tu, Chuanyi, Wang, Linghua, He, Jiansen & Marsch, Eckart, Geophysical Research Letters, 42, 3654
9. Self-Absorption in the Solar Transition Region [39]
   Yan, Limei, Peter, Hardi, He, Jiansen, Tian, Hui, Xia, Lidong, Wang, Linghua, Tu, Chuanyi, Zhang, Lei, Chen, Feng & Barczynski, Krzysztof, ApJ, 811, 48
10. Numerical simulation of superhalo electrons generated by magnetic reconnection in the solar wind source region [12]
    Yang, Li-Ping, Wang, Ling-Hua, He, Jian-Sen, Tu, Chuan-Yi, Zhang, Shao-Hua, Zhang, Lei & Feng, Xue-Shang, Research in Astronomy and Astrophysics, 15, 348
11. The Formation of Rotational Discontinuities in Compressive Three-dimensional MHD Turbulence [22]
    Yang, Liping, Zhang, Lei, He, Jiansen, Tu, Chuanyi, Wang, Linghua, Marsch, Eckart, Wang, Xin, Zhang, Shaohua & Feng, Xueshang, ApJ, 809, 155
12. Numerical Simulation of Fast-mode Magnetosonic Waves Excited by Plasmoid Ejections in the Solar Corona [39]
    Yang, Liping, Zhang, Lei, He, Jiansen, Peter, Hardi, Tu, Chuanyi, Wang, Linghua, Zhang, Shaohua & Feng, Xueshang, ApJ, 800, 111
13. The Angular Distribution of Solar Wind Superhalo Electrons at Quiet Times [10]
    Yang, Liu, Wang, Linghua, Li, Gang, He, Jiansen, Salem, Chadi S., Tu, Chuanyi, Wimmer-Schweingruber, Robert F. & Bale, Stuart D., ApJ, 811, L8
14. Identification of slow magnetosonic wave trains and their evolution in 3-D compressible turbulence simulation [8]
    Zhang, L., Yang, L. -P., He, J. -S., Tu, C. -Y., Wang, L. -H., Marsch, E. & Feng, X. -S., Annales Geophysicae, 33, 13
15. Occurrence Rates and Heating Effects of Tangential and Rotational Discontinuities as Obtained from Three-dimensional Simulation of Magnetohydrodynamic Turbulence [24]
    Zhang, Lei, He, Jiansen, Tu, Chuanyi, Yang, Liping, Wang, Xin, Marsch, Eckart & Wang, Linghua, ApJ, 804, L43

2014

1. Waiting Time Distribution of Solar Energetic Particle Events Modeled with a Non-stationary Poisson Process [13]
   Li, C., Zhong, S. J., Wang, L., Su, W. & Fang, C., ApJ, 792, L26
2. Correlation of Electron Path Lengths Observed in the Highly Wound Outer Region of Magnetic Clouds with the Slab Fraction of Magnetic Turbulence in the Dissipation Range [9]
   Tan, Lun C., Reames, Donald V., Ng, Chee K., Shao, Xi & Wang, Linghua, ApJ, 786, 122
3. Simulation of Energetic Neutral Atoms from Solar Energetic Particles [6]
   Wang, Linghua, Li, Gang, Shih, Albert Y., Lin, Robert P. & Wimmer-Schweingruber, Robert F., ApJ, 793, L37
4. The Influence of Intermittency on the Spectral Anisotropy of Solar Wind Turbulence [39]
   Wang, Xin, Tu, Chuanyi, He, Jiansen, Marsch, Eckart & Wang, Linghua, ApJ, 783, L9

2013

1. Comparison between Path Lengths Traveled by Solar Electrons and Ions in Ground-Level Enhancement Events [21]
   Tan, Lun C., Malandraki, Olga E., Reames, Donald V., Ng, Chee K., Wang, Linghua, Patsou, Ioanna & Papaioannou, Athanasios, ApJ, 768, 68
2. Quiet-time solar wind superhalo electrons at solar minimum [5]
   Wang, Linghua, Lin, Robert P., Salem, Chadi, Pulupa, Marc, Larson, Davin E., Yoon, Peter H. & Luhmann, Janet G., Solar Wind 13 (Editors: Zank, Gary P., Borovsky, Joe, Bruno, Roberto, Cirtain, Jonathan, Cranmer, Steve, Elliott, Heather, Giacalone, Joe, Gonzalez, Walter, Li, Gang, Marsch, Eckart, Moebius, Ebehard, Pogorelov, Nick, Spann, Jim & Verkhoglyadova, Olga), American Institute of Physics Conference Series, 1539, p. 299
3. On Intermittent Turbulence Heating of the Solar Wind: Differences between Tangential and Rotational Discontinuities [55]
   Wang, Xin, Tu, Chuanyi, He, Jiansen, Marsch, Eckart & Wang, Linghua, ApJ, 772, L14
4. Injection of Plasma into the Nascent Solar Wind via Reconnection Driven by Supergranular Advection [35]
   Yang, Liping, He, Jiansen, Peter, Hardi, Tu, Chuanyi, Chen, Wenlei, Zhang, Lei, Marsch, Eckart, Wang, Linghua, Feng, Xueshang & Yan, Limei, ApJ, 770, 6
5. Small-scale Pressure-balanced Structures Driven by Mirror-mode Waves in the Solar Wind [21]
   Yao, Shuo, He, J. -S., Tu, C. -Y., Wang, L. -H. & Marsch, E., ApJ, 776, 94
6. Solar Wind Electron Acceleration via Langmuir Turbulence [7]
   Yoon, Peter H., Ziebell, Luiz F., Gaelzer, Rudi, Wang, Linghua & Lin, Robert P., Terrestrial, Atmospheric and Oceanic Sciences, 24, 175

2012

1. Issues in heliospheric field mapping to flare SEP sources [76]
   Luhmann, J. G., Li, Yan, Bercik, D. J., Wang, Linghua & Odstrcil, D., Space Weather: the Space Radiation Environment: 11th Annual International AstroPhysics Conference (Editors: Hu, Qiang, Li, Gang, Zank, Gary P., Ao, Xianzhi, Verkhoglyadova, Olga & Adams, James H.), American Institute of Physics Conference Series, 1500, p. 3
2. Use of Incident and Reflected Solar Particle Beams to Trace the Topology of Magnetic Clouds [29]
   Tan, Lun C., Malandraki, Olga E., Reames, Donald V., Ng, Chee K., Wang, Linghua & Dorrian, Gareth, ApJ, 750, 146
3. A Statistical Study of Solar Electron Events over One Solar Cycle [81]
   Wang, Linghua, Lin, R. P., Krucker, Säm & Mason, Glenn M., ApJ, 759, 69
4. Quiet-time Interplanetary ~2-20 keV Superhalo Electrons at Solar Minimum [98]
   Wang, Linghua, Lin, Robert P., Salem, Chadi, Pulupa, Marc, Larson, Davin E., Yoon, Peter H. & Luhmann, Janet G., ApJ, 753, L23
5. Langmuir Turbulence and Suprathermal Electrons [60]
   Yoon, P. H., Ziebell, L. F., Gaelzer, R., Lin, R. P. & Wang, L., Space Science Reviews, 173, 459

2011

1. On the Near-Earth Observation of Protons and Electrons from the Decay of Low-energy Solar Flare Neutrons [5]
   Agueda, Neus, Krucker, Säm, Lin, Robert P. & Wang, Linghua, ApJ, 737, 53
2. What Causes Scatter-free Transport of Non-relativistic Solar Electrons? [29]
   Tan, Lun C., Reames, Donald V., Ng, Chee K., Shao, Xi & Wang, Linghua, ApJ, 728, 133
3. Pitch-angle Distributions and Temporal Variations of 0.3-300 keV Solar Impulsive Electron Events [35]
   Wang, L., Lin, R. P. & Krucker, Säm, ApJ, 727, 121
4. Electron distributions during the solar electron burst of 22 March 2002 [0]
   de Koning, Curt A., Gosling, J. T., Skoug, Ruth M., Steinberg, John T., Lin, Robert P. & Wang, Linghua, Journal of Geophysical Research (Space Physics), 116, A04110

2010

1. Energetic, ∼5-90 keV neutral atom imaging of a weak substorm with STEREO/STE [5]
   Wang, Linghua, Lin, R. P., Parks, G. K., Brandt, P. C., Roelof, E. C., Sample, J. G., Eastwood, J. P., Larson, D. E., Curtis, D. W. & Luhmann, J. G., Geophysical Research Letters, 37, L08107

2009

1. A Re-Interpretation of STEREO/STE Observations and Its Consequences [5]
   Hsieh, K. C., Frisch, P. C., Giacalone, J., Jokipii, J. R., Kóta, J., Larson, D. E., Lin, R. P., Luhmann, J. G. & Wang, Linghua, ApJ, 694, L79
2. Observational Evidence on the Presence of an Outer Reflecting Boundary in Solar Energetic Particle Events [44]
   Tan, Lun C., Reames, Donald V., Ng, Chee K., Saloniemi, Oskari & Wang, Linghua, ApJ, 701, 1753

2008

1. The STEREO IMPACT Suprathermal Electron (STE) Instrument [42]
   Lin, R. P., Curtis, D. W., Larson, D. E., Luhmann, J. G., McBride, S. E., Maier, M. R., Moreau, T., Tindall, C. S., Turin, P. & Wang, Linghua, Space Science Reviews, 136, 241
2. A Comprehensive View of the 2006 December 13 CME: From the Sun to Interplanetary Space [93]
   Liu, Y., Luhmann, J. G., Müller-Mellin, R., Schroeder, P. C., Wang, L., Lin, R. P., Bale, S. D., Li, Y., Acuña, M. H. & Sauvaud, J. -A., ApJ, 689, 563
3. Domination of heliosheath pressure by shock-accelerated pickup ions from observations of neutral atoms [18]
   Wang, Linghua, Lin, Robert P., Larson, Davin E. & Luhmann, Janet G., Nature, 454, 81

2006

1. Solar Source Regions for ³He-rich Solar Energetic Particle Events Identified Using Imaging Radio, Optical, and Energetic Particle Observations [59]
   Pick, M., Mason, G. M., Wang, Y. -M., Tan, C. & Wang, L., ApJ, 648, 1247
2. Evidence for double injections in scatter-free solar impulsive electron events [62]
   Wang, L., Lin, R. P., Krucker, S. & Gosling, J. T., Geophysical Research Letters, 33, L03106

2003

1. A possible way of understanding the differential motion of minor ions in the solar wind [7]
   Tu, C. -Y., Wang, L. -H. & Marsch, E., Journal of Geophysical Research (Space Physics), 108, 1161

2002

1. Formation of the proton beam distribution in high-speed solar wind [25]
   Tu, C. -Y., Wang, L. -H. & Marsch, E., Journal of Geophysical Research (Space Physics), 107, 1291