花君临，中国科学技术大学地球和空间科学学院特任教授、博士生导师。2016年本科毕业于北京大学，2021年博士毕业于美国布朗大学，2021-2024年于美国德克萨斯大学奥斯汀分校从事博士后研究，后于美国布朗大学任高级副研究员，并于2024年底加入中国科大。本人的研究方向聚焦运用前沿的地震学成像方法，结合跨学科研究手段，探究地幔的结构和动力学过程。目前，在地震学方面，本人所运用的主要观测手段为全波形反演、散射波（接收函数）成像、面波衰减成像，这些观测可以给出地球内部的弹性、粘弹性、各向异性性质。在此基础上，本人结合地球动力学数值模拟、矿物物理学模型、地球化学观测，进一步探究地震成像结果所代表的温度、组分、熔体、挥发分结构，及相关的地幔动力学过程。除此之外，本人还从事一些有关环境地震学的工作。目前以第一/通讯作者身份在Nature Geoscience(2), EPSL, JGR:Solid Earth, G-cubed, GJI等期刊发表多篇文章，担任Scientific Reports期刊编委，并入选国家高层次人才项目。希望并期待与各位同行交流合作，欢迎对相关工作感兴趣的本科生和研究生随时与我联系（junlin_hua@ustc.edu.cn）。  

2024至今，中国科学技术大学，特任教授 

2024，美国布朗大学，高级副研究员  

2021-2024，美国德克萨斯大学奥斯汀分校，博士后研究员  

2016-2021，美国布朗大学，博士  

2012-2016，北京大学，学士

14.    Li, J.*, Hua, J., Ferrand, T. P., Pou, L., Huang, Q., Allibert, L., ... & Zhou, T. (2025). Evidence for weak seismic attenuation in Mars’ deep mantle. Communications Earth & Environment, 6(1), 656.

13.    Hua, J.*,  Schulte-Pelkum, V.,  Becker, T. W.,  He, B., &  Zhu, H. (2025).  Waveform effects on shear wave splitting near fault zones. Journal of Geophysical Research: Solid Earth,  130, e2025JB031656.

12.    Gazel, E.*, Dayton, K., Liang, W., Hua, J., Lynn K. L., Hammer, J. E. (2025). Crustal to mantle melt storage during the evolution of Hawaiian volcanoes. Science Advances, 11, eadu9332.

11.    Hua, J.*, Grand, S. P., Becker, T. W., Janiszewski, H. A., Liu, C., Zhu, H., & Trugman, D. T. (2025). Seismic full-waveform tomography of active cratonic thinning beneath North America consistent with slab-induced dripping. Nature Geoscience, 18, 358-364.

10.    Carrero Mustelier, E., Fischer, K. M.*, Hua, J., Gama, I., La Femina, P. C., & Higgins, M. (2024). Relationships Between Upper‐Plate Structure, Mantle Wedge Melting, and Fore‐Arc Sliver Transport in the Nicaraguan Subduction Zone. The Seismic Record, 4(4), 251-258.

9.    DeVitre, C. L.*, Gazel, E.*, Ramalho, R. S., Venugopal, S., Steele-MacInnis, M., Hua, J., Allison, C. M., Moore, L. R., Carracedo, J. C. & Monteleone, B. (2023). Volatile-rich intraplate explosive eruption sustained from the mantle.  Proceedings of the National Academy of Sciences, 120(33), e2302093120.

8.    Hua, J.*, Wu, M., Mulholland, J. P., Neelin, J. D., Tsai, V. C., & Trugman, D. T. (2023). High-resolution precipitation monitoring with a dense seismic nodal array. Scientific Reports, 13(1), 11450.

7.    Hua, J.*, Fischer, K. M., Becker T. W., Gazel, E. & Hirth G. (2023). Asthenospheric low-velocity zone consistent with globally prevalent partial melting. Nature Geoscience.

6.    Hua, J.*, Fischer, K. M., Gazel, E., Parmentier E. M., & Hirth G. (2023). Long-distance asthenospheric transport of plume-influenced mantle from Afar to Anatolia.  Geochemistry, Geophysics, Geosystems.

5.    Gama, I.*, Fischer, K. M., & Hua, J. (2022). Mapping the lithosphere and asthenosphere beneath Alaska with Sp converted waves.  Geochemistry, Geophysics, Geosystems, e2022GC010517.

4.    Hua, J.*, Fischer, K. M., Wu, M., & Blom, N. (2020). New approaches to multifrequency Sp stacking tested in the Anatolian region. Journal of Geophysical Research: Solid Earth, e2020JB020313.

3.    Chen, K. X.*, Fischer, K. M., Hua, J., & Gung, Y. (2020). Imaging crustal melt beneath northeast Japan with Ps receiver functions. Earth and Planetary Science Letters, 537, 116173.

2.    Hua, J.*, Fischer, K. M., Mancinelli, N. J., & Bao, T. (2020). Imaging with pre-stack migration based on Sp scattering kernels. Geophysical Journal International, 220(1), 428-449.

1.    Hua, J.*, Fischer, K. M., & Savage, M. K. (2018). The lithosphere–asthenosphere boundary beneath the South Island of New Zealand. Earth and Planetary Science Letters, 484, 92-102.