左平兵，教授，博士生导师，空间科学与应用技术研究院院长助理，主要从事日球层物理、空间天气及空间探测研究。在国内外专业期刊上发表SCI论文 80 余篇，其中第一和通讯作者论文30余篇。曾荣获中科院院长优秀奖、中科院优秀博士论文奖、全国优秀博士毕业论文提名、中科院青年创新促进会优秀会员称号。现任中国地球物理学会行星物理专业委员会委员和空间天气专业委员会委员。主持国家省市科研项目十余项，其中国家自然科学基金面上项目三项，现负责国家重大科技基础设施项目“子午工程二期”哈工大深圳站项目。 教育经历 2003.09–2008.07 中国科学院大学 获博士学位 空间物理学 1999.09–2003.07 中国科学技术大学 获双学士学位 空间物理学（主学位）和电子信息工程 研究与工作经历 2021.01至今 教授，博士生导师，哈尔滨工业大学（深圳） 2017.01-2020.12 副教授， 哈尔滨工业大学（深圳） 2011.01-2016.12 副研究员， 空间天气学国家重点实验室,中国科学院国家空间科学中心 2012.09–2014.07 Research Scientist, Florida Institute of Technology 2009.11–2011.12 Postdoctoral Research Associate, Florida Institute of Technology 2008.07–2010.12 助理研究员， 中国科学院国家空间科学中心 主持课题项目 2019/11-2023/12 主持 国家重大科技基础设施“子午工程二期”哈工大深圳站项目 2020/01-2022/12 主持 广东省自然科学基金面上项目“太阳高能粒子在近日冕区域的加速过程研究” 2018/01-2023/12 参与 国家自然科学基金重点项目“行星际太阳风研究中的几个基本问题”，子课题负责人 2017/06-2019/06 主持 深圳市科创委自由探索项目“太阳高能粒子建模研究” 2016/01-2018/12 主持 中国科学院青年创新促进会优秀会员专项基金 2014/01-2017/12 主持 国家自然科学基金面上项目“由CME激波驱动的激波加速产生的太阳高能粒子在近日冕区的三维分布模式" 2012/01-2015/12 主持 国家自然科学基金面上项目“各向异性激波加速理论研究及其在终止激波加速中的应用" 2012/01-2015/12 主持 中国科学院青年创新促进会会员专项基金 2009/01-2010/12 主持 国家重点实验室专项经费青年基金 2009/01-2012/12 参与 国家自然科学基金重大项目，“L1点行星际太阳风多时空尺度结构研究”，项目骨干 2006/01-2009/12 参与 国家自然科学基金重点项目，“日冕-行星际-地磁因果链预报模式的初步研究”，项目骨干

日球层高能粒子传输和加速理论 行星际扰动的灾害性空间天气过程及建模 空间高能粒子辐射建模及在航天工程的应用

国家空间天气科学中心（筹）科技委员会委员 中国地球物理学会行星物理专业委员会委员 中国地球物理学会空间天气专业委员会委员 中国科学院青年创新促进会会员

Xu, Q., Xu, X., Zuo, P.*, Futaana, Y., Chang, Q., and Gu, H. Solar control of the pickup ion plume in the dayside magnetosheath of Venus. Geophysical Research Letters (2023), 50, e2022GL102401. https://doi.org/10.1029/2022GL102401 (JCR Q1) Xu, Q., Xu X. X., Zuo, P. B.*, Xie, L. H. , Wang, M., Chang, Q., Wang J., Ye Y. D., Zhou, Z. L., Wang, X., Luo, L., and Gu H., The Dependence of the Venusian Induced Magnetosphere on the Interplanetary Magnetic Field: An MHD Study, Astrophy. J. (2022), 931:95, 2022 June 1 (JCR Q1) Wei, J. Y., Wang, G. Q.*, & Zuo,P. B.*. Statistical study of the relationship between Pi1/2-band wave powers and firehose instability criterion during fast flows in the magnetotail plasma sheet. Journal of Geophysical Research: Space Physics (2022), 127, e2022JA030567. https://doi.org/10.1029/2022JA030567 (JCR Q2) Song X., Zuo P.*, Shen Z, Feng X, Xu X, Wang Y, Jiang C and Luo X, Overshoot Structure Near the Earth’s Subsolar Magnetopause Generated by Magnetopause Motions, Front. Phys (2022), 10:775792. doi: 10.3389/fphy.2022.775 (JCR Q2) Ruan, M. S., Zuo, P. B.*, Zhou, Z. L., Shen, Z. N., Wang, Y., Feng, X. S., Jiang, C. W., Xu, X. J., Wei, J. Y., Xiong, Y. Y., and Wang, L. D., The Relationship Between Solar Wind Dynamic Pressure Pulses and Solar Wind Turbulence, Front. Phys. (2021), 9:750410, DOI: 10.3389/fphy.2021.750410 (JCR Q2) Z.-N. Shen, H. Yang, P. B. Zuo*, G. Qin, F. S. Wei, X. J. Xu, and Y. Q. Xie, Solar Modulation of Galactic Cosmic-Ray Protons Based on a Modified Force-field Approach, Astrophy. J. (2021), 921:109, 2021 November 10 (JCR Q1) Z.-N. Shen, G. Qin*, P. B. Zuo*, F. S. Wei, and X. J. Xu, Numerical Modeling of Latitudinal Gradients for Galactic Cosmic-Ray Proton during Solar Minima; Comparing with Ulysses Observations, Astrophy. J. Suppl. S. (2021), 256:18, 2021 September (JCR Q1) Z. Y. Zou, Z. L. Gao, P .B. Zuo*, B. B. Ni, G. Wang, Z. Y. Zhao, X. S. Feng, X. J. Xu, C. W. J, Y. W, and F. S. Wei, Evidence of wave-wave coupling between frequency harmonic bands of magnetosonic waves, Phys. Plasmas (2021) 28, 122903, DOI: 10.1063/5.0065582 (JCR Q2) Z.-N. Shen, G. Qin*, P. B. Zuo*, F. S. Wei, and X. J. Xu, A Study of Variations of Galactic Cosmic-Ray Intensity Based on a Hybrid Data Processing Method, Astrophy. J. (2020), 900:143, 2020 September 10 (JCR Q1) Gao, Z. L., Shang, X. J., Zuo, P. B.*, Zou, Z. Y., Wang, G., Feng, X. S., Wang, Y., Guan C. Y. and Wei, F. S., Lag-correlated rising tones of electron cyclotron harmonic and whistler-mode upper-band chorus waves, Phys. Plasmas (2020), 27, 062903, doi: 10.1063/5.0008812. (JCR Q2, Selected as featured） Gao, Z. L., Zuo, P. B.*, Feng, X. S., Wang, Y., Jiang, C. W., & Wei, F. S. Evidence of nonlinear interactions between magnetospheric electron cyclotron harmonic waves. Geophysical Research Letters (2020), 47, e2020GL088452, (JCR Q1) Zou, Z. Y, Zuo, P. B.*, Ni, B. B., Gao, Z. L., Wang, G., Zhao, Z. Y., Feng, X. S., and Wei, F. S., Two-step Dropouts of Radiation Belt Electron Phase Space Density Induced by a Magnetic Cloud Event, Astrophy. J. Letters(2020), 895:L24, 2020 May 20. (JCR Q1) Z. L. Zhou, P. B. Zuo*, X. S. Feng, Y. Wang, C. W. Jiang, and X. S. Song, Intermittencies and Local Heating in Magnetic Cloud Boundary Layers, Solar Phys. (2019) , 294, 149. (JCR Q2) Z. L. Zhou, P. B. Zuo*, F. S. Wei, X. S. Feng, Y. Wang, L. D. Wang, C. W. Jiang , X. J. Song, and X. J. Xu, Intermittent Heating in the Magnetic Cloud Sheath Regions, Astrophy. J. Letters (2019), 885:L13 (5pp), 2019 November 1. (JCR Q1) Z. Y. Zou, P. B. Zuo*, B. B. Ni, F. S. Wei, Z. Y. Zhao, X. Cao et al. Wave normal angle distribution of fast magnetosonic waves: A survey of Van Allen Probes EMFISIS observations. Journal of Geophysical Research: Space Physics (2019), 124.https://doi.org/10.1029/2019JA026556.(JCR Q2) X. J. Song, P. B. Zuo*, X. S. Feng, J, H. Shue, Y. Wang, C. W. Jiang, Z. L. Zhou, X. J. Xu, Abnormal magnetospheric magnetic gradient direction reverse around the indented magnetopause, Astrophysics and Space Science (2019), 364, 146. (JCR Q3) P. B. Zuo*, X. S. Feng, et al. Strong Solar Wind Dynamic Pressure Pulses: Interplanetary Sources and Their Impacts on Geosynchronous Magnetic Fields, Astrophy. J. (2015), 812, 152. (JCR Q1) P. B. Zuo*, X. S. Feng, Y. Q. Xie, Y. Wang, and X. J. Xu, A Statistical Survey of Dynamic Pressure Pulses In the Solar Wind Based on Wind Observations,Astrophy. J. (2015), 808, 83. (JCR Q1) P. B. Zuo*, X. S. Feng, Y. Q. Xie, Y. Wang, H. J. Li and X. J. Xu, Automatic Detection Algorithm of Dynamic Pressure Pulses In the Solar Wind, Astrophy. J. (2015), 803, 94. (JCR Q1) Y. Q. Xie, P. B. Zuo*, X. S. Feng, and Y. Zhang, Properties of Solar Wind Dynamic Pressure Pulses at 1 AU during the Deep Minimum between Solar Cycles 23 and 24, SOLAR PHYSICS(2015), 290, 6, 1835-1849. (JCR Q2) P. B. Zuo*, M. Zhang, and H. K. Rassoul,The Role of Cross-shock Potential on Pickup Ion Shock Acceleration in the Framework of Focused Transport Theory, Astrophy. J. (2013), 776, 93. (JCR Q1) P. B. Zuo*, M. Zhang, and H. K. Rassoul, Acceleration of Low-Energy Ions at Parallel Shocks with a Focused Transport Model, Astrophy. J. (2013), 767, 6. (JCR Q1) P. B. Zuo* and X. S. Feng, Spatial Distribution and Anisotropy of Energetic Particles Accelerated by Shock Waves: Focused Transport Model, CHIN. PHYS. LETT. (2013), Vol. 30, No. 1, 019601. (JCR Q4) P. B. Zuo*, M. Zhang, K. Gamayunov, H. K. Rassoul, and X. Luo, Energy spectrum of energetic particles accelerated by shock waves: from focused transport to diffusive acceleration,Astrophy. J.(2011), 738, 168. (JCR Q1) P. B. Zuo*, F. S. Wei, X. S. Feng, X. J. Xu, and W. B. Song, Magnetic cloud boundary layer of 9 November 2004 and its associated space weather effects, J. Geophys. Res. (2010), 115, A10102, doi:10.1029/2009JA01481. (JCR Q2) P. B. Zuo* and X. S. Feng. The Plasma and Magnetic Field Characteristics of a Double Discontinuity in Interplanetary Space. SOLAR PHYSICS (2007), 240, 347–357. (JCR Q2) P. B. Zuo*, F. S. Wei, X. S. Feng and F. Yang. The Relationship between the Magnetic Cloud Boundary Layer and the Substorm Expansion Phase. SOLAR PHYSICS (2007), 242, 167–185.. (JCR Q2) P. B. Zuo*, F. S. Wei and X. S. Feng. Observations of an Interplanetary Slow Shock Associated with Magnetic Cloud Boundary Layer. GEOPHYSICAL RESEARCH LETTERS (2006), 33, L15107. (JCR Q1) P. B. Zuo*, S. L. Liu, S. P. Jin, Z. X. Liu and J. K. Shi. A Study On the Characteristics of the Flux Transfer Events Occurred on March 2, 2001. CHINESE JOURNAL OF GEOPHYSICS (2004), 47, 3, 424–434. (JCR Q4)