施东雷，1994年7月生，浙江金华人，理学博士，中国地质大学（武汉）环境学院特任副教授。博士就读于中国科学院大气物理研究所，师从陈光华研究员，在读期间曾获国家奖学金、中国科学院优秀毕业生。主要研究领域为台风强度变化的动力学机理、超强台风的中尺度数值模拟和台风气候变率等，目前已在《Journal of the Atmospheric Sciences》、《Monthly Weather Review》、《Geophysical Research Letters》《Journal of Geophysical Research: Atmospheres》等国内外权威学术期刊发表高质量论文十余篇，其中一作8篇。

代表性论文（一作）：

1. Shi, D., G. Chen, and X. Xie, 2023: Revisiting the relationship between tropical cyclone rapid intensification and the distribution of inner‐core precipitation. Geophysical Research Letters, 50 (17), e2023GL104810.
   

2. Shi, D., and G. Chen, 2023: Modulation of asymmetric inner‐core convection on midlevel ventilation leading up to the rapid intensification of Typhoon Lekima (2019). Journal of Geophysical Research: Atmospheres, 128, e2022JD037952.
   

3. Shi, D., and G. Chen, 2021: The implication of outflow structure for the rapid intensification of tropical cyclones under vertical wind shear. Monthly weather review, 149, 4107-4127.

4. Shi, D., and G. Chen, 2021: Double warm-core structure and potential vorticity diagnosis during the rapid intensification of Supertyphoon Lekima (2019). Journal of the Atmospheric Sciences, 78, 2471-2492.

5. Shi, D., and G. Chen, 2021: Comments on “Potential vorticity mixing and rapid intensification in the numerically simulated supertyphoon Haiyan (2013)”. Journal of the Atmospheric Sciences, 78, 2643-2648.

6. Shi, D., G. Chen, K. Wang, X. Bi, and K. Chen, 2020: Evaluation of two initialization schemes for simulating the rapid intensification of Typhoon Lekima (2019). Advances in Atmospheric Sciences, 37, 987–1006.

7. Shi, D., X. Ge, M. Peng, and T. Li, 2019: Characterization of tropical cyclone rapid intensification under two types of El Niño events in the Western North Pacific. International Journal of Climatology, 40, 2359-2372.

8. Shi, D., X. Ge, and M. Peng, 2019: Latitudinal dependence of the dry air effect on tropical cyclone development. Dynamics of Atmospheres and Oceans, 87, 101102.

合作论文：

1. Chen, K., Chen, G., & Shi, D. (2023). Modulation of the wind field structure of initial vortex on the relationship between tropical cyclone size and intensity. Advances in Atmospheric Sciences, 40(9), 1707-1721.
   

2. Ma, J., Wei, K., Chen, W., Wang, T., & Shi, D. (2022). The southward movement preference of large-scale persistent extreme precipitation events over the Yangtze River Valley during Mei-yu period. Climate Dynamics, https://doi.org/10.1007/s00382-022-06539-z
   

3. Chen, K., Chen, G., & Shi, D., 2023. Modulation of the wind field structure of initial vortex on the relationship between tropical cyclone size and intensity. Advances in Atmospheric Sciences, 40(9), 1707-1721.

4. Chen K., G. Chen and D. Shi, 2022: Reexamination of the relationship between tropical cyclone size and intensity over the Western North Pacific. Advances in Atmospheric Sciences, DOI: 10.1007/s00376-022-1450-6.

5. Bi, X., G. Chen, D. Shi, K. Wang, and W. Zhou, 2020: A statistical analysis of the influences of multi-timescale waves on tropical cyclone sudden track changes over the western North Pacific. Frontiers in Earth Science, 8.

6. Wang, K., G. Chen, X. Bi, D. Shi, and K. Chen, 2020: Comparison of convective and stratiform precipitation properties in developing and nondeveloping tropical disturbances observed by the Global Precipitation Measurement over the western North Pacific. Journal of the Meteorological Society of Japan. Ser. II, 98, 1051-1067.

7. Ge, X., and D. Shi, 2019: The mid-latitudinal influence on the formation of the monsoon gyre in August 1991. Dynamics of Atmospheres and Oceans, 86, 52-62.

8. Ge, X., D. Shi, and L. Guan, 2018: Monthly variations of tropical cyclone rapid intensification ratio in the western North Pacific. Atmos. Sci. Lett., 19.
   

9. 苏爱芳，施东雷，葛旭阳，2019：下垫面对郑州城市强降水的影响:城市化及地形影响的数值模拟研究.大气科学学报，42，434-446.

近期科研项目：

2024-2026 国家自然科学基金青年基金项目（42305004）“中等垂直风切变下非对称型热带气旋快速增强的物理机制研究“，项目负责人

2024-2028 国家重点研发计划青年科学家项目（2023YFF0807000）“长三角城市群超强台风-暴雨-洪水复合链式灾害风险评估与智慧防御”，项目骨干

2023-2025 中国博士后科学基金-第73批面上项目（2023M743283），项目负责人