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个人简历     艾三喜，湖北松滋人，2014年获河海大学工学学士学位，2020年获中国科学院大学理学博士学位（获得中国科学院院长奖），同年入选“地大学者青年优秀人才”岗位，担任中国地质大学特任副研究员、硕士生导师。2021-2022年间担任东京大学特任研究员。博士毕业以来，先后主持了国家自然科学基金委、东京大学地震研究所、国家重点实验室等单位资助的竞争性科研项目。目前研究重点集中在海洋地球物理学，主要利用被动源海底地震仪所记录的地震波形，分析海洋岩石圈-软流圈的物理性质及其演化过程，以揭示地球内部运行的基本规律。    海洋覆盖了地球的大部分面积。作为地球内外物质交换的主要区域，海洋是固体地球科学研究的重要场所，著名的板块构造学说便诞生于海洋。对海洋深部结构的探测主要依靠天然地震学观测，但相较于陆地地震学，海底地震学研究具有观测成本大、数据噪声大等突出特点。因此，海底地震学是一个挑战大、值得探索、需要国际合作的研究领域。    对于有志于毕业后继续从事学术研究的同学，非常欢迎你加入这个充满挑战与希望的研究领域。目前正在与东京大学地震研究所的青年科学家一起开展合作研究，研究区域包括日本海盆，菲律宾海盆，西太平洋等，已有的研究结果被选为了AGU美国地球物理学会研究亮点。我们发展了新的海洋地震学成像方法，亟待应用到新的数据（与有待进一步挖掘的历史数据）中，以检验我们的科学假设；对于期望毕业后进入企业工作的同学，我将结合你的个人兴趣安排研究内容，适当注重技能的发展（比如人工智能、高性能计算等技术在海洋地震学研究中的应用），为将来进入企业工作作适当准备。目前在地球物理学、资源与环境专业招收研究生，欢迎联系（aisanxi@cug.edu.cn）。同行评议文章第一作者Ai, S., Akuhara, T. A robust approach to determine the seafloor Rayleigh wave ellipticity directly from the unoriented ocean-bottom seismometer data. In revisionAi, S., Zheng, Y. Ambient noise Eikonal tomography across NE Tibet. In revisionAi, S., Zheng, Y., Zeng, S., & Wang, S. Measurements of Rayleigh wave ellipticity anisotropy and implications for distinct crustal deformation styles across the SE Tibet margin. Tectonophysics, 856, 229863. June, 2023.Ai, S., Akuhara, T., Morishige, M., Yoshizawa, K., Shinohara, M., & Nakahigashi, K. Layered evolution of the oceanic lithosphere beneath the Japan Basin, the Sea of Japan. Journal of Geophysical Research: Solid Earth, 128(2), e2022JB025581. February, 2023 (AGU Research Spotlight)Ai, S., Zheng, Y., Wang, S., & He, L. Joint inversion of Rayleigh wave ellipticity and phase velocity for crustal structure in Taiwan. Tectonophysics, 814, 228946. September, 2021Ai, S., Zheng, Y., & Wang, S. Crustal deformations of the central North China Craton constrained by radial anisotropy. Journal of Geophysical Research: Solid Earth, 125(7), e2019JB018374. July, 2020Ai, S., Zheng, Y., Riaz, M. S., Song, M., Zeng, S., & Xie, Z. Seismic Evidence on Different Rifting Mechanisms in Southern and Northern Segments of the Fenhe-Weihe Rift Zone. Journal of Geophysical Research: Solid Earth, 124(1), 609-630. February, 2019. Ai, S., Zheng, Y., & Xiong, C. Ambient Noise Tomography Across the Taiwan Strait, Taiwan Island, and Southwestern Ryukyu Arc: Implications for Subsurface Slab Interactions. Tectonics, 38(2), 579-594. March, 2019. Ai, S., Zheng, Y., He, L., & Song, M. Joint inversion of ambient noise and earthquake data in the Trans-North China Orogen: On-going lithospheric modification and its impact on the Cenozoic continental rifting. Tectonophysics, 763, 73-85. July, 2019.合作者He, L., Sun, X., Li, P., Ai, S., & Li, J. Lithospheric structure near Jiuyishan, South China: Implications for asthenospheric upwelling and lithospheric modification. Geophysical Research Letters, 48(24), e2021GL096572. December, 2021Zeng, S., Zheng, Y., Niu, F., & Ai, S. Measurements of seismometer orientation of the first phase CHINArray and their implications on vector‐recording‐based seismic studies. Bulletin of the Seismological Society of America, 111(1), 36-49. February, 2021Wang, X., Song, M., Zheng, Y., Ai, S. Velocity characteristics of Shanxi and adjacent area and its tectonics significance. Seismology and Geology, 41(1), 119-136. February, 2019 (In Chinese with English Abstract).Xiong, C., Xie, Z., Zheng, Y., Xiong, X., Ai, S., & Xie, R.. Rayleigh wave tomography in the crust and upper mantle of the Dabie-Tablu Orogenic zone. Seismology and Geology, 41(1): 1-20. February, 2019 (In Chinese with English Abstract).Xiong, C., Ai, S., Xie, Z., Xiong, X. Phase velocity maps of the Taiwan region from the ambient noise tomography of the cross terms in Green’s function tensors. Acta Seismologica Sinica, 41(3), 302-313. May, 2019 (In Chinese with English Abstract).