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姓名 吴兆朋 性别:
职称 特聘副研究员 学位 Ph.D.
电话 - 传真: 010-62010846
Email: wuzp[a]mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中科院地质与地球物理研究所
更多信息:

English地球与行星物理重点实验室 行星物理学学科组
ResearchGate
 
简历:

  吴兆朋,副研究员。1990年出生于山东省。主要研究领域为行星大气动力学、火星大气圈层耦合、火星沙尘暴、行星大气模拟等。
  2023.01至今:中国科学院地质与地球物理研究所,副研究员
  2020.11-2023.01: 中山大学,大气科学学院,副研究员
  2018.08-2020.10: 中山大学,大气科学学院,博士后
  2016.09-2017.10 美国加州大学圣克鲁兹分校,地球和行星科学系,行星大气,联合培养
  2013.09-2018.06: 中国科学技术大学,地球和空间科学学院,空间物理,博士
  2009.09-2013.06: 中国科学技术大学,地球和空间科学学院,地球物理,学士
 
学科类别:
行星科学
 
研究方向:
  1. 行星大气动力学
  2. 火星大气圈层耦合
  3. 火星沙尘暴
  4. 行星大气模拟
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 国家自然科学基金委员会, 专项项目, 祝融号巡视区陆气相互作用过程对大气逃逸粒子传输链的影响, 2023-2023
  2. 国家自然科学基金委员会, 青年科学基金项目, 火星大型沙尘暴期间沙尘日变化与大气潮汐的耦合过程研究, 2021-2023
 
获奖及荣誉:
 
代表论著:
  1. Wu, Z.*, T. Li, N. G. Heavens, C. E. Newman, M. I. Richardson, C. Yang, J. Li, and J. Cui (2022), Earth-like thermal and dynamical coupling processes in the Martian climate system, Earth-Science Reviews, 229, 104023
  2. Wu, Z.*, J. Li, T. Li, and J. Cui (2022), Gravity Waves in Different Atmospheric Layers During Martian Dust Storms, Journal of Geophysical Research: Planets, 127(4), e2021JE007170
  3. Wu, Z., T. Li*, J. Li, C. Yang, and J. Cui (2022), Diurnal Variations of Water Ice in the Martian Atmosphere Observed by Mars Climate Sounder, Remote Sensing, 14(9), 2235.
  4. Huang, J., Z. Wu*, J. Cui, X. Wan, J. Zhong, and Y. Hao (2022), Gravity Waves in Titan's Atmosphere: A Comparison Between Linearized Wave Model Calculations and HASI Observations, Journal of Geophysical Research: Planets, 127(6), e2022JE007310.
  5. Huang, J., Z. Wu*, J. Cui, Y. Hao, and W. Cao (2022), Topographic Gravity Waves Observed in the Martian Thermosphere: A Statistical Perspective From a 1-D Full-Wave Model, Journal of Geophysical Research: Space Physics, 127(9), e2022JA030846.
  6. Wu, Z.*, Richardson, M.I., Zhang, X., Cui, J., Heavens, N.G., Lee, C., Li, T., Lian, Y., Newman, C.E., Soto, A., Temel, O., Toigo, A.D. and Witek, M. (2021), Large Eddy Simulations of the Dusty Martian Convective Boundary Layer With MarsWRF, Journal of Geophysical Research: Planets, 126(9), e2020JE006752
  7. Wu, Z., T. Li*, J. Li, X. Zhang, C. Yang, and J. Cui (2021), Abnormal Phase Structure of Thermal Tides During Major Dust Storms on Mars: Implications for the Excitation Source of High-altitude Water Ice Clouds, Journal of Geophysical Research: Planets, 126(4), e2020JE006758.
  8. Niu, D.-D., et al. (2021), Species-dependent Response of the Martian Ionosphere to the 2018 Global Dust Event, Journal of Geophysical Research: Planets, 126(2), e2020JE006679, doi:https://doi.org/10.1029/2020JE006679.
  9. Guha, B. K., J. Panda*, and Z. Wu (2021), Observation of aphelion cloud belt over Martian tropics, its evolution, and associated dust distribution from MCS data, Advances in Space Research, 67(4), 1392-1411, doi:https://doi.org/10.1016/j.asr.2020.11.010.
  10. Wu, Z.*, T. Li*, X. Zhang, J. Li, and J. Cui (2020), Dust tides and rapid meridional motions in the Martian atmosphere during major dust storms, Nature Communications, 11(1), 614, doi:10.1038/s41467-020-14510-x.
  11. Li, J., Wu, Z. P*., Li, T., Zhang, X. and Gui, J. (2020). The diurnal transport of atmospheric water vapor during major dust storms onMars based on the Mars Climate Database, version 5.3. Earth Planet. Phys., 4(6), 550–564. http://doi.org/10.26464/epp2020062
  12. Cui, J.*, R. Z.-P, W. Z.-P, W. X.-S, H. Y.-Q, and Y. Wei (2020), Abnormal Dawn–Dusk Asymmetry of Protonated Ions in the Martian Ionosphere, The Astrophysical Journal Letters, 895(2), L43, doi:10.3847/2041-8213/ab930c.
  13. Fu, M., J. Cui*, X. Wu, Z. Wu, and J. Li (2020), The variations of the Martian exobase altitude, Earth and Planetary Physics, 4(1), 4-10.
  14. Wang, X., Y. Lian, J. Cui*, M. Richardson, Z. Wu, and J. Li (2020), Temperature Variability in Titan's Upper Atmosphere: The Role of Wave Dissipation, Journal of Geophysical Research: Planets, 125(6), e2019JE006163, doi:10.1029/2019je006163.
  15. Li, J., Li, T.*, Wu, Q., Tang, Y., Wu, Z., & Cui, J. (2020). Characteristics of small‐scale gravity waves in the Arctic winter mesosphere. Journal of Geophysical Research: Space Physics, 125(6), e2019JA027643, https://doi.org/10.1029/2019JA027643.
  16. Gu, H., J. Cui*, D.-D. Niu, Y.-T. Cao, X.-S. Wu, J. Li, Z.-P. Wu, F. He, and Y. Wei (2020), Neutral Heating Efficiency in the Dayside Martian Upper Atmosphere, The Astronomical Journal, 159(2), 39.
  17. Cui, J.*, M.-H. Fu, Z.-P. Ren, H. Gu, J.-H. Guo, X.-S. Wu, Z.-P. Wu, H.-R. Lai, and Y. Wei (2020), Nitric Oxide Abundance in the Martian Thermosphere and Its Diurnal Variation, Geophysical Research Letters, 47(9), e2020GL087252, doi:10.1029/2020gl087252.
  18. Fang, X., Li, T.*, Ban, C., Wu, Z., Li, J., Li, F., Cen, Y. & Tian, B. (2019), A mobile differential absorption lidar for simultaneous observations of tropospheric and stratospheric ozone over Tibet, Optics express, 27 No. 4, pp. 4126-4139.
  19. Li, T.*, Ban, C.*, Fang, X., Li, J., Wu, Z., Feng, W., Plane, J. M., Xiong, J., Marsh, D. R. & Mills, M. J. (2018), Climatology of mesopause region nocturnal temperature, zonal wind and sodium density observed by sodium lidar over Hefei, China (32?N, 117? E), Atmospheric Chemistry and Physics, 18 No. 16, pp. 11683-11695.
  20. Wu, Z., T. Li*, and X. Dou (2017), What causes seasonal variation of migrating diurnal tide observed by the Mars Climate Sounder?, Journal of Geophysical Research: Planets, 122(6), 1227-1242, doi:10.1002/2017JE005277.
  21. Wu, Z., T. Li*, and X. Dou (2015), Seasonal variation of Martian middle atmosphere tides observed by the Mars Climate Sounder, Journal of Geophysical Research: Planets, 120(12), 2206-2223, doi:10.1002/2015JE004922.
  22. 吴兆朋*,李静,李陶*,崔峻. 2021. 火星沙尘暴及其与大气波动的相互作用. 地球与行星物理论评,52(4):402-415
 

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