Profile
Professor, PhD supervisor, and director of Institute of Space Weather.
Professor Lu graduated from Peking University, and has been engaged in space physics research with more than 130 reviewed publications, with particular interests in space weather modelling, aurora, and coupling of solar wind-magnetosphere-ionosphere-atmosphere. He was selected into the Overseas Excellent Talents Program of Chinese Academy of Science, Distinguished expert of China Meteorological Administration, Innovation and entrepreneurship talents of Jiangsu Province, Leading talents of Innovation and entrepreneurship teams of Jiangsu Province, and so on. He is a member of the review panel of National Natural Science Foundation of China, Key R&D project of Ministry of Science and Technology, and NASA. He is the editorial board member of Earth and Planetary Physics and Chinese Journal of Space Science. He is presiding over the key program of National Natural Science Foundation of China, general program of National Natural Science Foundation of China, and National Program on Key Basic Research Project.
Education
Sep.1983-Jun.1987: Department of Geophysics, Peking University, Bachelor of Space Physics.
Sep.1987-Jun.1990: Department of Geophysics, Peking University, Master of space physics.
Sep.1993-Jun.1996: National Space Science Center, the Chinese Academy of Sciences, Doctor of space plasma physics.
Resume of work research
1990-Jul.1996: National Space Science Center, Chinese Academy of Sciences.
Jul.1996-Jan.1997: visiting professor, Space Science Institute of Taiwan Central University.
Jan.1997-Feb.1998: Associate Researcher, National Space Science Center, Chinese Academy of Sciences.
Feb.1998-Dec.1998: Visiting scholar, Department of Mechanical Engineering, Catholic University of America.
Dec.1998-Nov.2000: Limited Researcher, Bartel Research Institute, University of Delaware, Researcher.
Nov.2000-Dec.2007: Research Associate, University of Alberta.
Dec.2007-Dec.2012: Distinguished expert of China Meteorological Administration.
Jan.2013-Now: Professor, Director of Institute of Space Weather at Nanjing University of Information Science &technology.
Social Appointments
1.Editorial board of Earth and Planetary Physics. 2017-.
2.Member of the China Committee of the International Association for Geomagnetism and High Altitude Physics.
3.Member of the Space Physics Committee of the Chinese Society of Space Sciences.
4.Member of the Space Weather Committee of the Chinese Geophysical Society.
6.Editorial board of Chinese Journal of Space Science, 1996-2000, 2020-.
7.PhD Supervisor of Wuhan University.
8.MS Supervisor of China University of Geosciences at Wuhan.
Research field
1.Space Weather Forecast.
2.Numerical simulation and modeling of space weather.
3.Coupling of solar wind, magnetosphere, ionosphere, and middle and upper atmosphere.
Recent major research projects
1.Innovation team project of Jiangsu Province, Jiangsu provincial organization department, PI, 2017-2020.
2.Study on the energy transport from the solar wind to the magnetosphere and its global climate impact (42030203), Key project of National Natural Science Foundation of China, PI, 2021-2025.
3.Three-dimensional numerical simulation of ion spectrum structure in inner magnetosphere (41974190), General project of National Natural Science Foundation of China, PI, 2020-2023.
4.Interaction between polar ionosphere and neutral atmosphere (2018YFC1407305), the topic of National key R & D projects, Ministry of Science and Technology of the People's Republic of China, PI, 2018-2021.
5.Research on three-dimensional finite element numerical simulation of auroral magnetosphere and ionospheric electrokinetic coupling, General project of National Natural Science Foundation of China, PI, 2016-2019.
6.Research on the prediction of geomagnetic storms driven by Coronal mass ejections based on solar observations, Joint project of National Natural Science Foundation of China, PI,2017-2019.
7.Innovation talents of Jiangsu Province, Jiangsu provincial organization department, 2014-2016.
8.Numerical simulation research on the electric coupling between nonlinear shear Alfven waves in magnetosphere and ionospheric feedback (41031063), Key project of National Natural Science Foundation of China, PI, 2011-2014
9.Numerical model integration and prediction experiment of space weather, Modeling of geospatial weather numerical prediction based on meridian project and Double Star Program, Subproject of national 973 Plan, 2012-2016.
10.Operational monitoring of polar marine atmosphere and space environment (HY201005017), Special scientific research of public welfare industry of SOA, Sub topics of polar atmospheric model integration and solar wind energy transfer to the solar magnetosphere, 2010-2013.
11.Numerical simulation and Simulation of disastrous space weather events, Special key scientific research project of public welfare industry of China Meteorological Administration, PI, 2011-2012.
12.Research on the coupling of ultra-low frequency geomagnetic pulsations, magnetosphere, and ionosphere in the auroral region (40874087), General project of National Natural Science Foundation of China, PI, 2009-2011.
Major papers and Monographs
王劲松,吕建永(主编),空间天气,气象出版社,北京,2010年3月
2021
1. 苏烨,李婧媛,吕建永,中纬度地磁暴期间热层垂直风响应机制的模拟研究, 空间科学学报
2. 罗钦顺,李婧媛,吕建永,苏烨,魏光纯,李正,武业文,何昉,余尧,地磁暴恢复相中间层低热层高纬温度响应,空间科学学报,2021(5):724-736,doi: 10.11728/cjss2021.05.724
3.高扬, 吕建永, 王明, 李婧媛, 熊雅婷, 彭光帅,基于长短时记忆神经网络的太阳F10.7辐射通量的短期预报研究,天文学报,47(1),2021
4.李宏硕,吕建永,王明,袁换只,周悦,基于卫星观测的上游等离子体beta与磁层顶厚度、速度等特征参数关系的统计研究,地球物理学报, 64(9), 3005-3020,doi:10.6038/cjg2021P0080.(通讯作者)
5.Jianyong Lu, Yating Xiong, Kai Zhao, Ming Wang, Jingyuan Li, Guangshuai Peng, and Meng Sun, A novel bimodal forecasting model for solar cycle 25, The Astrophysical Journal, inpress.
6.Zhiwei Wang, Jianyong Lu, Hongqiao Hu, Jianjun Liu, Zejun Hu, Ming Wang, Bin Li, Xiangcai Chen, Yewen Wu, Hua Zhang, Haiyan Guan, HMB Variations Measured by SuperDARN During the Extremely Radial IMFs: Is the coupling function applicable in radial IMF?, J. Geophys. Res. Space Physics (通讯作者)
7. Zhiwei Wang, Hongqiao Hu, Jianyong Lu, Desheng Han, Jianjun Liu, Yewen Wu, Zejun Hu, Observational Evidence of Transient Lobe Reconnection Triggered by Sudden Enhancement of IMF Bz, J. Geophys. Res. Space Physics,126, e2021JA029410,DOI: 10.1029/2021JA029410. (通讯作者)
8.Lu J.Y., H. X. Zhang, M. Wang, K. Kabin, Y. Zhou, and J. Y. Li, Energy transfer across the magnetopause under radial IMF conditions, The Astrophysical Journal, 920(1), 52, https://doi.org/10.3847/1538-4357/ac15f4, October 10, 2021.
9.Yating Xiong, Jianyong Lu, Kai Zhao, Meng Sun and Yang Gao, Forecasting solar cycle 25 using comprehensive precursor combination and multiple regression technique, Monthly Notices of the Royal Astronomical Society, 505(1), 1046-1052, July 2021. http://dx.doi.org/10.1093/mnras/stab1159(通讯作者)
10.Qu, B. H., Lu, J. Y., Wang, M., Yuan, H. Z., Zhou, Y. and Zhang, H. X. (2021). Formation of the bow shock indentation: MHD simulation results. Earth Planet. Phys., 5(3), 259–269.http://doi.org/10.26464/epp2021033(通讯作者)
11.M. Wang, L. C. Lee, L. Xie, X. Xu, J. Y. Lu, K. Kabin, J. Wang, L. Li, and H. Y. Sui, Effect of solar wind density and velocity on the subsolar standoff distance of the Martian magnetic pileup boundary, Astronomy & Astrophysics, 651, A22, DOI: https://doi.org/10.1051/0004-6361/202140511.
12.王淼,李正,吕建永,基于SABER的平流层顶温度的时空特征分析,空间科学学报,2021 (5): 760-768. doi: 10.11728/cjss2021.05.760
2020
13.Wang, Y.B., Lynn M Kistler, et al. Formation of the low-energy “finger” ion spectral structure near the inner edge of the plasma sheet. Geophys. Res. Lett., 47, 22,DOI:10.1029/2020GL089875, 20 November 2020.
14.Wang, M, L. Xie, L. C. Lee, X.J. Xu,K. Kabin, J.Y. Lu, J. Wang, and L. Li, A 3D Parametric Martian Bow Shock Model with the Effects of Mach Number, DynamicPressure, and the Interplanetary Magnetic Field, The Astrophysical Journal, 903:125 (19pp), 2020 November 10.
15.Wang, M., J. Y. Lu, K. Kabin, H. Z. Yuan, Y. Zhou, and H. Y. Guan, Influence of IMF cone angle on the geometry of bow shock, The Astronomical Journal, 159(5), https://doi.org/10.3847/1538-3881/ab86a7, 2020 April 22(通讯作者)
16.Shang, W.S., B.B. Tang, Q. Q. Shi, A. M. Tian, X. Y. Zhou, Z. H. Yao, A. W. Degeling, I. J. Rae, Q.-G. Zong, S. Y. Fu, J. Y. Lu, Z. Y. Pu, A. N. Fazakerley, M.W. Dunlop, G. Facskó, J. Liu, and M. Wang, Unusual location of the magnetopause in the magnetotail on lunar orbit: Case study, J. Geophys. Res. Space Physics, 125, DOI: 10.1029/2019JA027401, 2020-04-15.
17.Huanzhi Yuan, Hui Zhang, Jianyong Lu, Changbo Zhu, Ming Wang, Flow Vortex-Induced Downward Field-Aligned Current in the Plasma Sheet, Earth and Space Science, 7, e2019EA000916, https://doi.org/10.1029/2019EA000916, 2020-02-26.
18.周悦,吕建永,王明,袁换只,弓激波模型的对比,空间科学学报,40(6):990-999,2000
19.王明,于超,吕建永,袁换只,周悦,刘子谦,虞超,顾春丽,行星际磁场By对弓激波影响的MHD结果,地球物理学报,63(5):1725-1737,doi:10.6038/cjg2020M0563,2020年5月
2019
20.Haiyan Guan, Yongtao Yu, Daifeng Peng, Yufu Zang, Jianyong Lu, Aixia Li, and Jonathan Li, A Convolutional Capsule Network for Traffic-Sign Recognition Using Mobile LiDAR Data with Digital Images, IEEE Geoscience and Remote Sensing Letters, PP(99):1-5,10.1109/LGRS.2019.2939354, Sep. 2019.
21.Zhang, H., S.Y. Fu, ZY Pu, JY Lu, J Zhong, CB Zhu, WX Wan, and LB Liu, Statistics on the magnetosheath properties related to magnetopause magnetic reconnection, Astrophys. J., 880(2), DOI: 10.3847/1538-4357/ab290e, 2019 August 1.
22.Lu, JY, Y. Zhou, X. Ma, M. Wang, K. Kabin, and H. Z. Yuan, Earth's bow shock: A new three-dimensional asymmetric model with dipole tilt effects, J. Geophys. Res. Space Physics, 124(7), 5396-5407, 2019. DOI: 10.1029/2018JA026144, 2019 August 26.
23.Wu, Y. W., R. Y. Liu, B. C. Zhang, W. B. Wang, S. R. Zhang, Q. H., Zhang, H. Q. Hu, and J. Y., Lu, The UT Variations of the Polar Ionosphere Based on the COSMIC Observation, J. Geophys. Res. Space Physics, 124(4), 15 April 2019, DOI: 10.1029/2018JA026106.
24.Li, J. Y., W. B. Wang, J. Y. Lu, J Yue, AG Burns, T Yuan, XT Chen, WJ Dong, A theoretical study of the responses of mesosphere and lower thermosphere winds to geomagnetic storms at middle latitudes, J. Geophys. Res. Space Physics,124(5),3666-3680. 24 April 2019. DOI: 10.1029/2018JA026533(通讯作者)
25.Lu, J.Y., Jin, C. Q., Wang, M., Ji, H. S., Iluore, K., Gu, C. L., Guan, H. Y., and J. F. Li, Generalized Additive Modeling combined with Multiple Collinear for ICME velocity forecasting, Space Weather, 19. 12 April 2019, doi: 10.1029/2018SW002135, 2019.
26.Liu, Z. F., Zhao, J.S., H.Y. Sun, L. Xiang, W. Liu, J. Y. Lu, and W.C., Zhou, Parallel-propagating Waves and Instabilities In Plasmas With Streaming Proton and Alpha Particles, Astrophys. J., 874(2):128, DOI: 10.3847/1538-4357/ab0896, 2019. (通讯作者)
27.Lu, J.Y., HX Zhang, M. Wang, C. L. Gu, and H. Y. Guan, on the response of magnetosphere to the IMF turning from north to south, Earth and Planetary Physics, 3(1), 8-18, doi: 10.26464/epp2019002, 2019.
28.孟琛, 吕建永, 王明,季海生,顾春利,CMEs引起的地磁暴穿越时间研究, 空间科学学报,39(3), 303-309, 2019。
2018
29.Yan, WQ, HY Guan, L. Cao, YT Yu, S. Gao, and JY Lu, An Automated Hierarchical Approach for Three-Dimensional Segmentation of Single Trees Using UAV LiDAR Data, Remote Sens., 10, 1999; doi:10.3390/rs10121999, 2018.
30.Li, M., P. Hu, X. Wang,Z.H. Niu, Q. H. Zhou, Q. Y. Wang, M.M. Zhu, C. Guo, L. Zhang, J.Y. Lu, J. F., Li, Hierarchical Porous Carbon Derived from Peanut Hull for Polysulfide Confinement in Li-S Battery, Energy Technology, 28 November 2018, 7(3), DOI:10.1002/ente.201800898, 2018
31.Li, J. Y., W. B. Wang, J. Y. Lu, et al., on the responses of mesosphere and lower thermosphere temperatures to geomagnetic storms at low and middle latitutdes, Geophys. Res. Lett., 45(19), 10128-10137, doi:10.1029/2018GL078968, 2018 (通讯作者)
32.Wang, M., Lu, J. Y., Kabin, K., Yuan, H. Z., Liu, Z.-Q., Zhao, J. S., & Li, G., The influence of IMF By on the bow shock: Observation result, J. Geophys. Res. Space Physics, 123, https://doi.org/10.1002/2017JA024750, 2018(SCI 55)(通讯作者)
33.徐佳莹,吕建永,王明,郭建广,行星际磁场对极尖区位形变化的统计研究,地球物理学报,61(9):3526-3535,doi:10.6038/cjg2018M0118,2018
34.商文赛,吕建永,王明,倪素兰,远磁尾磁层顶位型的偏转,空间科学学报,38(3),307-314, 2018
2017
35.Tang Y., J.S. Zhao, H.Y. Sun, J.Y. Lu, and M. Wang,Effects of ion thermal pressure on wave properties of electromagnetic ion cyclotron waves in a H+-He+-O+ plasma, Phys. Plasmas., doi: 10.1063/1.4983622, 24, 052120, 2017.
36.Ma, X., J. Y. Lu, and M. Wang, Pressure Balance across the Magnetopause during the Solar Wind Event on 5 June 1998, Planetary Space Sci., 139, 11-17, 2017.(通讯作者)
37.Lu, J.Y., H.Z. Yuan, M. Wang, and Y.F. Yang, Dipole tilt control of bow shock location and flaring angle, Science China Earth Sciences, doi:10.1007/s11430-015-0268-8, vol. 60, Issue 1, PP 198-206, 2017.
38.刘琼琼,胡红桥,吕建永,刘建军,刘瑞源,夜侧极区电离层对流对行星际激波的响应,空间科学学报,37(2),140-150,2017
2016
39. Wang, M., J. Y. Lu, et al., The influence of IMF clock angle on the cross-section of the tail bow shock, J. Geophys. Res. Space Physics, 121 (11), 11077-11085, doi:10.1002/2016JA022830, 2016(通讯作者)
40.Fu, Q., Y. Tang, J.S. Zhao, and J.Y. Lu, Low-frequency Waves in Cold Three-component Plasmas, Plasma Sci. Technol., 18(9), 897-901, 2016.
41.Liu, J., Shi Q.Q., et al., Shape and position of earth’s bow shock near-lunar orbit based on ARTEMIS data, Science China Earth Sciences, 59(8):1700-17066, doi: 10.1007/s11430-016-5319-3, 2016.
42.Lu, J.Y., Y.X. Peng, M. Wang, S. J. Gu,and M.X. Zhao, Support vector machine combined with distance correlation learning for Dst forecasting during intense geomagnetic storms, Planetary Space Sci., 120,48-55, 2016.
43.彭宇翔,吕建永,顾赛菊,利用支持向量机预测大磁暴期间Dst指数的变化,空间科学学报,36(6): 866-874, 2016
44.袁换只,吕建永,王明,偶极倾角对弓激波日下点距离和尾部张角的影响,空间科学学报,36(3),272-278,2016
45.王娅冰,郑宇卿,顾斌,丁留贯,乐贵明,吕建永,1AU轨道SEP粒子通量的计算及与多卫星观测结果的比较,空间科学学报,36(3),331-335,2016
2015
46.Liu, Z.-Q., J. Y. Lu, C. Wang, K. Kabin, J. S. Zhao, M. Wang, J. P. Han, J. Y. Wang, and M. X. Zhao, A three-dimensional high Mach number asymmetric magnetopause model from global MHD simulation, J. Geophys. Res. Space Physics, 120(7), 5645-56666, doi:10.1002/2014JA020961, 2015.(通讯作者)
47.Lu J.Y., M. Wang, K. Kabin, Z.-Q. Liu, J. S. Zhao, G. Li, Pressure Balance across the Magnetopause: Global MHD Results, Planetary Space Sci., 106, 108-115, 2015.
48.吕建永,赵明现,磁层电离层电动耦合数值模拟研究,空间物理新进展(第五卷),史建魁,叶永烜,刘振兴主编,科学出版社(北京),2015年10月,164-201
49.胡慧萍,吕建永,周全,王明,杨亚芬,刘子谦,裴世鑫,地球弓激波的三维模拟,空间科学学报,35(1),1-8,doi:10.11728/cjss2015.01.001,2015
2014
50.Wang, M., J.Y. Lu, K. Kabin, Z.-Q. Liu, J. S. Zhao, G. Li, The Dipole Tilt Angle Dependence of the Bow Shock: Global MHD Results for Southward IMF, Planetary Space Sci., 106, 99-107, 2014. (通讯作者)
51. J. S. Zhao, Y. Voitenko, M.Y. Yu, JY Lu, and DJ Wu, Properties of Short-wavelength Oblique Alfvén and Slow Waves, Astrophys. J, 793(2), 107, 2014.
52.Jing H., J. Y. Lu, K. Kabin, J.S. Zhao, Z. Q. Liu, Y. F. Yang, M. X. Zhao, and M. Wang, MHD Simulation of energy transfer across magnetopause during sudden changes of the IMF orientation, Planetary Space Sci., 97, 50-59, 2014. (通讯作者)
53.王明,吕建永,李刚,太阳风压力系数的研究,地球物理学报,57(11), 3804-3811, doi:10.6038/cjg20141101,2014(SCIE)
54.荆浩,吕建永,蒋勇,王明,胡慧萍,刘子谦,太阳风向磁层输入电磁能的研究, 空间科学学报,34(3): 269-277, doi:10.11728/cjss2014.03.269, 2014.
2013
55.Lu, J. Y., H. Jing, Z. Q. Liu, K. Kabin, and Y. Jiang (2013), Energy transfer across the magnetopause for northward and southward interplanetary magnetic fields, J. Geophys. Res. Space Physics, Vol.118, Issue 5, May 2013, Pages: 2021–2033, DOI: 10.1002/jgra.50093.
56.Lu, J. Y., Z.-Q. Liu, K. Kabin, H. Jing, M. X. Zhao, and Y. Wang (2013), The IMF dependence of the magnetopause from global MHD simulations, J. Geophys. Res. Space Physics, Vol. 118, Issue 6, June 2013, Pages: 3113–3125, doi:10.1002/jgra.50324.
57.Zhao J. S., D. J. Wu, and J. Y. Lu, Kinetic Alfven Turbulence and Parallel Electric Fields in Flare Loops, Astrophys. J., 767, 109, doi:10.1088/0004-637X/767/2/109, 2013.(累计122.088)
58.Yang, Y. F.,J. Y. Lu, J.-S. Wang, Z. Peng, and L. Zhou, Influence of interplanetary magnetic field and solar wind on auroral brightness in different regions, J. Geophys. Res., Space Physics, 118, 209-217, doi:10.1029/2012JA017727, 2013.(通讯作者)
59.Zhao J. S., D. J. Wu, L. Yang, and J. Y. Lu, Nonlinear interaction and parametric instability of kinetic Alfven waves in multicomponent plasmas, Phys. Plasmas, 20, 032308, doi: 10.1063/1.4796054, 2013
60.吕建永,杨亚芬,赵明现,迈向太空---空间天气学,现代物理知识,25卷,第5期(总149期),21-26,2013
61.曹鑫,吕建永,杨志良,刘子谦,杨亚芬,赵明现, 三维试验粒子轨道法在磁层粒子全球输运中的应用, 空间科学学报,33(3): 240-249, 2013。
2012
62.Kumar S., and J.Y. Lu, Quantum treatment of Kinetic Alfven waves, Astrophys. Space Sci., V. 340, doi:10.1007/s10509-012-1120-8, 2012.
63.Liu Z.-Q., J. Y. Lu, K. Kabin, Y. F. Yang, M. X. Zhao, and X. Cao, Dipole tilt control for the magnetopause for southward IMF from global magnetohydrodynamic simulations, J. Geophys. Res., 117, A07207, doi:10.1029/2011JA017441, 2012.(通讯作者)
64.Zhao J. S., D. J. Wu, M. Y. Yu, and J. Y. Lu, Convective cell generation by kinetic Alfv\'en wave turbulence in the auroral ionosphere, Phys. Plasmas., 19, 062901, doi:10.1063/1.4729327, 2012.
65.Wang M., Lu J. Y., Z.Q. Liu, and S.X. Pei, Dependence of magnetic field just inside the magnetopause on subsolar standoff distance:global MHD results, Chin. Sci. Bull., 57: 1438–1442, doi: 10.1007/s11434-011-4961-6, 2012.(通讯作者)
66.Zhao M. X., Lu J. Y., Nonlinear dispersive scale Alfven waves in magnetosphere-ionosphere coupling: physical processes and simulation results, Chin. Sci. Bull., 57: 1384–1392, doi: 10.1007/s11434-011-4905-1, 2012.(通讯作者)
2011
67.Yang, Y. F., J. Y. Lu, J.-S. Wang, Z. Peng, Q. Qian, and Y. Xiao, Different response of dayside auroras to increases in solar wind dynamic pressure, J. Geophys. Res., 116, A08314, doi:10.1029/2010JA016385, 2011. (通讯作者)
68.Lu J. Y., Z.-Q. Liu, K. Kabin, M. X. Zhao, D. D. Liu, Q. Zhou, and Y. Xiao, Three dimensional shape of the magnetopause: Global MHD results, J. Geophys. Res., 116, A09237, 21PP., doi:10.1029/2010JA016418,2011.
69.Zhao J. S., D. J. Wu, J. Y. Lu, L. Yang, and M. Y. Yu, Generation of Convective Cells by Kinetic Alfven Waves, New . J. Phys., 13 , 063043, 2011.
70.Zhao J. S., D. J. Wu, J. Y. Lu, Kinetic Alfven Waves excited by Oblique MHD Alfven Waves in Coronal Holes, Astrophys. J., 735, DOI: 10.1088/0004-637X/735/2/114, 2011.
71.Zhao J. S., D. J. Wu, J. Y. Lu, A nonlocal wave-wave interaction among Alfven waves in an intermediate-β plasma, Phys. Plasmas., 18, pp. 032903-032903-6, DOI: 10.1063/1.3568840, 2011.
72.Liu D. D., C. Huang, J. Y. Lu, and J.-S. Wang, The hourly average solar wind velocity prediction based on support vector regression method, Mon. Not. R. Astron. Soc., 4, 2877-2882, DOI: 10.1111/j.1365-2966. 2011.18359. x, 2011.
73.吕建永,杨亚芬,杜丹,周全,毛田,空间天气研究进展,气象科技进展,1(4),26-36,2011
2010
74.Du D., W. Y. Xu, M. X. Zhao, B. Chen, J. Y. Lu, and G. L. Yang, A sensitive geomagnetic activity index for space weather operation, Space Weather, 8, S12006, doi:10.1029/2010SW000609, 2010.
75.Zhao, J. S., D. J. Wu, and J. Y. Lu, On nonlinear decay of kinetic Alfvén waves and application to some processes in space plasmas, J. Geophys. Res., 115, A12227, doi:10.1029/2010JA015630, 2010.
76.Zhao J. S., J. Y. Lu, and D. J. Wu, Parametric instability of whistler waves in the electron magnetohydrodynamics, Astrophys. J., 714, 138-143, 10.1088/0004-637X/714/1/138, 2010.
77.Rae I. J., K. Kabin, J. Y. Lu, R. Rankin, S. E. Milan, F. R. Fenrich. C. E. J. Watt, T. I. Gombosi, D. L. De Zeeuw, A. J. Ridley, K. G. Powell, and C. R. Clauer, Comparison of the Open-Closed Separatrix in a Global Magnetospheric Simulation with Observations: the role of the ring current, 115, doi: 10.1029/2009JA015068,J. Geophys. Res.,2010.
2008
78.Marchand, R., F. Mackay F., J. Y. Lu, and K. Kabin, Consistency check of a global MHD simulation using the test-kinetic approach, Plasma Phys. Control. Fusion,50(2008) 074007,2008.
79.Lu J. Y., W. Wang, R. Rankin, R. Marchand, J. Lei, S. C. Solomon, I. J. Rae, J.-S. Wang, and G.-M. Le, Electromagnetic waves generated by ionospheric feedback instability, J. Geophys. Res., 113, A05206, doi:10.1029/2007JA012659,2008.
80.Mackay F., R. Marchand, K. Kabin, and J. Y. Lu, Test kinetic modeling of collisionless perpendicular shocks, J. Plasma Phys.,74,1-18,2008.
2007
81.Lu J. Y., R. Rankin, R. Marchand, I. J. Rae, W. Wang, S. C. Solomon, and J. Lei, Electrodynamics of magnetosphere-ionosphere coupling and feedback on magnetospheric field line resonances, J. Geophys. Res., 112, A10219, doi:
10.1029/2006JA012195, 2007.
82.Marchand R, J.Y. Lu, K. Kabin and R. Rankin, Unstructured Meshes and Finite Elements in Space Plasma Modelling: Principles and Applications, in Advanced methods for space simulations., edited by H. Usui and Y. Omura, pp.111-143, Tokyo, 2007.
2006
83.Rankin R., C. E. Watt, K. Kabin, R. Marchand, J. Y. Lu, and A. Degeling, Theoretical aspects of kinetic and inertial scale dispersive Alfven waves in Earth's magnetosphere, in Magnetospheric ULF Waves: Synthesis and New Directions, Geophys. Monogr. Ser., vol. 169, edited by K. Takahashi, P. J. Chi, R. E. Denton, and R. L. Lysak, 10.1029/169GM08, pp.91-108, AGU, Washington DC, 2006.
2005
84.Marchand R, J. Y. Lu, K. Kabin, R. Rankin, and T. Keeler, Unstructured Meshes and Finite Elements in Space Plasma Modelling, Proceedings of ISSS-7., PP. 26-31, March, 2005.
85.Rankin, R., K. Kabin, J. Y. Lu, I. R. Mann, R. Marchand, and I. J. Rae, V.T. Tikhonchuk, and E. Donovan, Magnetospheric field line resonances: ground-based observations and modeling, J. Geophys. Res.,110, A10S09, doi: 10.1029/2004JA01919, 2005.
86.Lu, J. Y., R. Rankin, R. Marchand, and V.T. Tikhonchuk, Reply to comment on " Nonlinear electron heating by resonant shear Alfven waves in the ionosphere" by J.-P. St.-Maurice, Geophys. Res. Letts.., 32, L13103, doi:10.1029/2005GL023149, 2005.
87.Rankin, R., R. Marchand, J. Y. Lu, K. Kabin, and V.T. Tikhonchuk, Theory of Dispersive Shear Alfven Wave Focusing in Earth's Magnetosphere, Geophys. Res. Letts.., 32, L05102, doi: 10.1029/2004GL021831, 2005.
88.Lu, J. Y., R. Rankin, R. Marchand, and V.T. Tikhonchuk, Nonlinear electron heating by resonant shear Alfven waves in the ionosphere, Geophys. Res. Lett., 32, L01106, doi:10.1029/2004GL0221830, 2005.
89.Liu, W., J. Burchill, L. Cogger, E. Donovan, G. James, D. Kendall, D. Knudsen, J. Y. Lu, I. Mann, R. Michaud, S. Murphree, R. Rankin, J. Samson, E. Spanswick, G. Sofko, T. Trondsen, and A. Yau., Multiscale geospace physics in Canada, in Sun-earth Connection: Multiscale Coupling in Sun-Earth Processes, Edited by A. T. Y. Liu, Y. Kamide, and G. Consolini, Elsevier B. V.; Amsterdam, The Netherlands, 2005, p.487, 2005.
2004
90.Kaghashvili, E. Kh. G. P. Zank, J. Y. Lu, W. Droge, Transport of energetic charged particles. Part 2. Small-angle scattering,J. Plasma Phys.,70, 505-532, 2004.
91.Rankin, R., J. Y. Lu, R. Marchand, and E.F. Donovan, Spatiotemporal characteristics of ultra-low frequency dispersive scale shear Alfven waves in Earth's magnetosphere, Phys. Plasmas., 11(4), 1268, doi:10.1063/1.1647138, 2004.
2003
92.Lu, J. Y., R. Rankin, R. Marchard, V. T. Tikhonchuk, and J Wanliss, Finite element modeling of nonlinear dispersive field line resonances: Trapped shear Alfven waves inside field-aligned density structures, J. Geophys. Res., 108(A11), 1394, doi:10.1029/2003JA010035, 2003.
93.Lu, J. Y., R. Rankin, R. Marchand, and V.T. Tikhonchuk, Nonlinear Acceleration of Dispersive Effects in Field Line Resonances, Geophys. Res. Lett., 30(10), 1540, doi: 10.1029/2003GL016929, 2003.
2002
94.Lu, J. Y., G. P. Zank, R. Rankin, and R. Marchand, The transport of charged particles in a flowing medium, Astrophys. J., 576, 574, 2002.
2001
95.Lu, J. Y., and G. P. Zank, The transport of interstellar pickup ions, J. Geophys. Res., 106, 5709, 2001.
96.Lu, J. Y.,G. P. Zank, and G.M. Webb, Numerical solution of the time-dependent kinetic equation for anisotrpoic pitch angle scattering, Astrophys.J., 550, 34-51, 2001.
97.Webb, G.M., J. Kota, G. P. Zank, and J. Y. Lu, The BGK Boltzmann equation and anisotropic diffusion, Proc. 27th Internat. Cosmic-Ray Conf., 8, 3326-3329, 2001.
2000
98.Zank, G. P., J. Y. Lu, W. K. M. Rice, and G. M. Webb, The transport of energetic charged particles in a radial magnetic field, I. Large-angle scattering, J. Plasma Phys.,64, 507-541, 2000.
99.Zank, G. P., W. K. M. Rice, J.A. leRoux, J. Y. Lu, and H. R. Muller, The injection problem for anomalous cosmic rays, in The Acceleration and Transport of Energetic Particles Observed in the Heliosphere, edited by R. A. Mewaldt, J. R. Jokipii, M. A. Lee, et al., AIP, 317-324, 2000.
1999
100.Lu, J. Y., Y. C. Whang, and L. F. Burlaga, Interaction of the GMIR shock with the termination shock, J. Geophys. Res., 104, 28249, 1999.
101.Zank, G. P., J. Y. Lu, W. K. M. Rice, and G. M. Webb, The transport of energetic solar particles, Proc. 26th Internat. Cosmic-Ray Conf., 6, 312-316, 1999.
102.Whang, Y. C., J. Y. Lu, and L. F. Burlaga, The termination shock: 1979-1995, J. Geophys. Res., 104, 28255, 1999.
103.Whang, Y. C., J. Y. Lu, and L. F. Burlaga, Evolution of a strong shock in the distant heliosphere, J. Geophys. Res., 104, 19787, 1999.
104.Lu, J. Y., and F. S., Wei, Slow mode shocks propagating in open and closed magnetic field, Science in China(Ser. A), 42, 414-422, 1999.
105.吕建永, 魏奉思,开闭磁场位形中慢激波的传播, 中国科学(A), 29, 69-76, 1999.
Before 1998
106.Lu, J. Y., J. K. Chao, J. H. Shue, and S. C. Fu, Normal direction and shape of the magnetopause, Science in China(Ser. D), 41, 486, 1998.
107.Lu, J. Y., and F. S. Wei, Propagation of fast shocks along the heliospheric current sheet from 1Rs to 1AU, in Proceedings of the Third SOLTIP Symposium, edited by X.S. Feng, F.S. Wei, and M. Dryer, 439-445, International Academic Publishers, 1998.
108.Feng Xue-shang, and Lü Jian-Yong, The effect of dispersion and dissipation on Alfven solitary waves, Chin. Astron. Astrophys. Vol. 21, No. 3, pp. 311-311, 1997.
109.吕建永, J. K. Chao, J. H. Shue, S. C. Fu, 磁层顶的法向和形状, 中国科学(D), 28, 322-326, 1998.
110.卢先和, 魏奉思, 吕建永, 刘四清,太阳风高速流能流分布, 空间科学学报,18(2),104-110, 1998.
111.冯学尚, 吕建永, 具有阻尼耗散的DNLS方程的孤立波解析解,空间科学学报, 17, 25-31, 1997.
112.吕建永, J. K. Chao, J. H. Shue, S. C. Fu, 磁层顶法向和形状的统计研究, 中国地球物理学会年刊1997, 同济大学出版社(上海), 217, 1997.
113.吕建永, 魏奉思, 费振勇, 各向异性磁流体激波越变条件的无量钢化求解, 空间科学学报, 17, 110-117, 1997.
114.冯学尚, 吕建永, 色散和耗散对Alfven孤立波的影响, 空间科学学报,16, 260-265, 1996.
115.吕建永, 顾辉成, 激波法向和速度的确定, 吉首大学学报,2, 1-7, 1996.
116.吕建永, 魏奉思, 黄天桥, 阿尔芬波在日球子午面内的传播, 空间科学学报, 14, 93-100, 1994.
117.Zhao Xue-pu, and LüJian-Yong, Interaction of the Alfven waves and the Slow mode shocks, Acta Geophysic, 31, 581, 1988.