部分第一/通讯作者文章：

(1) Fu, S.-M.* (傅慎明), J.-H. Sun, S.-X. Zhao, and W.-L. Li, 2011: The energy budget of a southwest vortex with heavy rainfall over South China. Adv. Atmos. Sci., 3, 709-724. (SCI核心)

(2) Fu, S.-M.* (傅慎明), W.-L. Li, J.-H. Sun, and R.-D. Xia, 2011: A budget analysis of a long lived tropical mesoscale vortex over Hainan in October 2010. Meteorol. Atmos. Phys., 114, 51-65. (SCI核心)

(3) Fu, S.-M.* (傅慎明), and J.-H. Sun, 2012: Circulation and Eddy Kinetic Energy Budget Analyses on the Evolution of a Northeast China Cold Vortex (NCCV) in May 2010. J. Meteor. Soc. Japan, 90, 553-573. (SCI 核心)

(4) Fu, S.-M.* (傅慎明), F. Yu, D.-H. Wang, R.-D. Xia, 2013: A comparison of two kinds of eastward-moving mesoscale vortices during the mei-yu period of 2010. Sci. China Earth Sci., 56, 282–300. DOI:10.1007/s11430-012-4420-5 (SCI核心)

(5) Fu, S.-M.* (傅慎明), J.-H. Sun, and J.-R. Sun, 2014: Accelerating two-stage explosive development of an extratropical cyclone over the northwestern Pacific Ocean: a piecewise potential vorticity diagnosis. Tellus, 66, 23210. (SCI 核心)

(6) Fu, S.-M.* (傅慎明), W.-L. Li, J.-H. Sun, J.-P., Zhang, and Y.-C. Zhang, 2015: Universal evolution mechanisms and energy conversion characteristics of long-lived mesoscale vortices over the Sichuan Basin. Atmos. Sci. Lett., 16, 127-134, DOI: 10.1002/asl2.533. (SCI核心)

(7) Fu, S.-M. (傅慎明), W. Li, and J. Ling*, 2015: On the evolution of a long-lived mesoscale vortex over the Yangtze River Basin: geometric features and interactions among systems of different scales, J. Geophys. Res. Atmos., 120, 11889-11917. DOI: 10.1002/2015JD023700. (SCI核心)

(8) Fu S.-M.* (傅慎明), J.-P. Zhang, J.-H. Sun, and T.-B. Zhao, 2016: Composite analysis of long-lived mesoscale vortices over the middle reaches of the Yangtze River valley: Octant features and evolution mechanisms. J. Climate, 29, 761-781. (SCI核心)

(9) Fu, S.-M. (傅慎明), D.-S. Li, J.-H. Sun, D. Si, J. Ling*, and F.-Y. Tian, 2016: A 31-year trend of the hourly precipitation over South China and the associated mechanisms. Atmos. Sci. Lett.,17, 216-222. DOI: 10.1002/asl.645. (SCI核心)

(10) Fu, S.-M.* (傅慎明), H.-J. Wang, J.-H. Sun, and Y.-C. Zhang, 2016: Energy budgets on the interactions between the mean and eddy flows during a persistent heavy rainfall event over the Yangtze River Valley in summer 2010. J. Meteor. Res., 30, 513-527. DOI: 10.1007/s13351- 016-5121-3. (SCI核心)

(11) Fu, S.-M. (傅慎明), J.-H. Sun, J. Ling*, H.-J. Wang, and Y.-C. Zhang, 2016: Scale interactions in sustaining persistent torrential rainfall events during the Mei-yu season, J. Geophys. Res. Atmos., 121, 12856-12876. (SCI核心)

(12) Fu, S.-M.* (傅慎明), J. Cao, X.-W. Jiang, and J.-H. Sun, 2017: On the variation of the divergent flow: An eddy-flux form equation based on the quasi-geostrophic balance and its application, Adv. Atmos. Sci., 34, 599-612. (SCI核心)

(13) Fu, S.-M.* (傅慎明), J.-H. Sun, Y.-L. Luo, and Y.-C. Zhang, 2017: Formation of long-lived summertime mesoscale vortices over central east China: Semi-idealized simulations based on a 14-year vortex statistic. J. Atmos. Sci., 74, 3955-3979, DOI: 10.1175/JAS-D-16-0328.1. (SCI核心)

(14) Fu, S.-M.* (傅慎明), R.-X. Liu, and J.-H. Sun, 2018: On the scale interactions that dominate the maintenance of a persistent heavy rainfall event: A piecewise energy analysis. J. Atmos. Sci., 75, 907-925. DOI:10.1175/JAS-D-17-0294.1. (SCI核心)

(15) Fu, S.-M.*(傅慎明), J.-H. Sun, W.-L. Li, and Y.-C. Zhang, 2018: Investigating the mechanisms associated with the evolutions of twin extratropical cyclones over the northwest Pacific Ocean in mid-January 2011. J. Geophys. Res. Atmos., 123，4088-4109. DOI:10.1002/2017JD027852. (SCI核心)

(16) Fu, S.-M.* (傅慎明), Z. Mai, J.-H. Sun, W.-L. Li, Y. Ding, and Y.-Q. Wang, 2019: Impacts of convective activity over the Tibetan Plateau on plateau vortex, southwest vortex, and downstream precipitation. J. Atmos. Sci., 76, 3803-3830. DOI:10.1175/ JAS-D-18-0331.1. (SCI核心)

(17) Fu, S.-M.* (傅慎明), S.-L. Jin, W. Shen, D.-Y. Li, B. Liu, and J.-H. Sun, 2020: A kinetic energy budget on the severe wind production that cause a serious state grid failure in Southern Xinjiang China. Atmos. Sci. Lett., 2020;e977. https://doi.org/ 10.1002/asl.977. (SCI核心)

(18) Fu, S.-M.* (傅慎明), J.-P. Zhang, H. Tang, L.-Z. Jiang, and J.-H. Sun, 2020: A new mesoscale-vortex identification metric: Restricted vorticity and its application. Environ. Res. Lett., 15, 124053, https://doi.org/10.1088/1748-9326/abcac6. (SCI核心)

(19) Fu, S.-M.* (傅慎明), H. Tang, Y. Li, H. Ma, and J.-H. Sun, 2021: On the relationship of a low-level jet and the formation of a heavy-rainfall-producing mesoscale vortex over the Yangtze River Basin. Atmosphere, 12, 156. https://doi.org/10. 3390/atmos12020156. (SCI核心)

(20) Fu, S.-M.* (傅慎明), Z. Mai, J.-H. Sun, W.-L. Li, Q. Zhong, J.-R. Sun, and Y.-C. Zhang, 2021: A semi-idealized modeling study on the long-lived eastward propagating mesoscale convective system over the Tibetan Plateau, Sci. China Earth Sci., 64, 1996–2014. https://doi.org/10.1007/s11430-020-9772-1. (SCI核心)

(21) Fu, S.-M.* (傅慎明), H. Tang, J.-H. Sun, T.-B. Zhao, W.-L. Li, 2022: Historical rankings and vortices’ activities of the extreme Mei-yu seasons: Contrast 2020 to previous Mei-yu seasons. Geophys. Res. Lett.. 49, e2021GL096590. https://doi.org/10.1029/2021GL096590. (SCI核心)

(22) Fu, S.-M.* (傅慎明), J.-P. Zhang, Y.-L. Luo*, W.-T. Yang, and J.-H. Sun, 2022: Energy paths that sustain the warm-sector torrential rainfall over South China and their contrasts to the frontal rainfall: A case study, Adv. Atmos. Sci., 39, 1519−1535, https://doi.org/10.1007/ s00376-021-1336-z. (SCI核心)

(23) Fu, S.-M.* (傅慎明), Y.-C. Zhang, H.-J. Wang, H. Tang, W.-L. Li, and J.-H. Sun, 2022: On the evolution of a long-lived mesoscale convective vortex that acted as a crucial condition for the extremely strong hourly precipitation in Zhengzhou, J. Geophys. Res. Atmos., 127, e2021JD036233. https://doi.org/10.1029/2021JD036233.

(SCI核心)

(24) Fu, S.-M.* (傅慎明), Huang T.-T., Sun J.-H. and Wang Z.-G., 2023: Observation characteristics and formation mechanisms of severe weather events. Front. Earth Sci. 11:1308347. doi: 10.3389/feart.2023.1308347. (SCI核心)

(25) Fu, S.-M.* (傅慎明), H. Ma, and L.-Z. Jiang, 2024: Increasing risks of the explosive extratropical cyclones over the North Atlantic storm track: a perspective from their surface wind maxima. Environ. Res. Lett., 19, 054009, https://dx.doi.org/10.1088/1748-9326/ad3b24 (SCI核心)

(26) Fu, S.-M.* (傅慎明), J.-H. Sun, S.-X. Zhao, and W.-L. Li, 2009: An analysis of the eddy kinetic energy budget of a southwest vortex during heavy rainfall over South China. Atmos. Oceanic. Sci. Lett., 2, 135-141. (核心)

(27) 傅慎明*，赵思雄，孙建华,李万莉, 2010: 一类低涡切变型华南前汛期致洪暴雨的分析研究. 大气科学, 34, 235-252. (核心)

(28) Fu, S.-M.* (傅慎明), J.-H. Sun, S.-X. Zhao, and W.-L. Li, 2010: The impact of eastward propagation of convective systems over the Tibetan Plateau on southwest vortex formation in Summer. Atmos. Oceanic. Sci. Lett., 3, 51-57. (核心)

(29) 傅慎明*，孙建华，赵思雄，李万莉，李博, 2011: 梅雨期青藏高原东移对流系统影响江淮流域降水的研究.气象学报, 4, 581-600. (核心)

(30) Fu, S.-M.* (傅慎明), and J.-H. Sun, 2011: On the significance and use of the generalized moist potential vorticity equation. Atmos. Oceanic. Sci. Lett., 4, 131-135.

(31) 傅慎明*，孙建华，赵思雄, 2012: 2004年冬季风期间一次强寒潮过程的能量收支研究.气候与环境研究, 17, 549-562. (核心)

(32) 傅慎明*，于翡，王东海，夏茹娣，2012: 2010 年梅雨期两类东移中尺度涡旋的对比研究，中国科学: 地球科学, 42, 1282-1300. (核心)

(33) Fu, S.-M.* (傅慎明), J.-H. Sun, and L.-L. Qi, 2014: Study on the evolution of a Northeast China cold vortex during the spring of 2010. Atmos. Oceanic. Sci. Lett., 7, 149-156. (核心)

(34) Fu, S.-M.* (傅慎明), J.-P. Zhang, J.-H. Sun, et al., 2014: A fourteen-year climatology of the southwest vortex in summer, Atmos. Oceanic Sci. Lett., 7, 510–514. (核心)

(35) 傅慎明*，孙建华，张敬萍，等，2015: 一次引发强降水的东北冷涡的演变机理及能量特征研究.气象，41, 554-565. (核心)

(36) Fu, S.-M.* (傅慎明), Z. Mai, J.-H. Sun, and H. Tang, 2019: On the physics cal significance and use of a set of horizontal and vertical helicity budget equations. Atmos. Oceanic. Sci. Lett., 12, 417-423. (核心)

(37) 傅慎明*，麦子，孙建华，李万莉，钟琦，孙家仁，张元春，2021：长生命史青藏高原东移对流系统的半理想模拟研究，中国科学: 地球科学, 51, 12, 2079 – 2097. (核心)

(38) Zhang, Y.-C., S.-M. Fu* (傅慎明), J.-H. Sun, R. Fu, S.-L. Jin, and D.-S. Ji, 2019: A 14-year statistics-based semi-idealized modeling study on the formation of a type of heavy rain–producing southwest vortex. Atmos. Sci. Lett., 2019;e894. https://doi.org/ 10.1002/asl.894. (SCI核心)

(39) Li, W.-L., R.-D. Xia, J.-H. Sun, S.-M. Fu* (傅慎明), L.-Z. Jiang, B.-F. Chen, and F.-Y. Tian, 2019: Layer-wise formation mechanisms of an entire-troposphere-thick extratropical cyclone that induces a record-breaking catastrophic rainstorm in Beijing. J. Geophys. Res. Atmos., 124, 10567-10591. https://doi.org/10.1029/2019JD030868 (SCI核心)

(40) Feng, S.-L., S.-L. Jin, S.-M. Fu* (傅慎明), J.-H. Sun, Y.-C. Zhang, 2019: Formation of a kind of heavy-precipitation-producing mesoscale vortex around the Sichuan Basin: an along-track vorticity budget analysis. Atmos. Sci. Lett., 2019;e949. https://doi.org/10.1002/asl.949 (SCI核心)

(41) Mai, Z., S.-M. Fu* (傅慎明), J.-H. Sun, L. Hu, and X.-M. Wang, 2020: Key statistical characteristics of the mesoscale convective systems generated over the Tibetan Plateau and their relationship to precipitation and southwest vortices, Int. J. Climatol., 36, 3148-3160. DOI: 10.1002/JOC.6735. (SCI 核心)

(42) Jiang, L.-Z., H.-G. Yu, L. Dong S.-M. Fu* (傅慎明), J.-H. Sun, F. Zheng, K. Yi, and H. Ma, 2021: On the vertical extending of the explosive extratropical cyclone: A case study. Atmos. Sci. Lett., 2021;e1028. https://doi.org/10.1002/asl.1028. (SCI核心)

(43) Jiang, L.-Z., S.-M. Fu* (傅慎明), J.-H. Sun, R. Fu, W.-L. Li, S.-X. Zhao, and H. Wang, 2021: Surface wind and vertical extent features of the explosive cyclones in the Northern Hemisphere based on the ERA-I reanalysis data, Int. J. Climatol., 1-22. https://doi.org/10.1002/JOC.7284. (SCI 核心)

(44) Yang, W.-T., S.-M. Fu* (傅慎明), J.-H. Sun, F., Zheng, J. Wei, and Z. Ma, 2021: Comparative evaluation of the performances of TRMM and CMORPH precipitation estimates over Thailand, J. Meteor. Soc. Japan, 99, 1525−1546. doi:10.2151/jmsj. 2021-074. (SCI 核心)

(45) Sun, J.-H., S.-M. Fu* (傅慎明), H.-J. Wang, Y.-C. Zhang, Y. Chen, A.-F.  Su, Y.-Q. Wang, H. Tang, and R. Ma, 2022: Primary characteristics of the extreme heavy rainfall event over Henan in July 2021. Atmos. Sci. Lett., e1131. https://doi.org/10.1002/ asl.1131. (SCI 核心)

(46) Ma, H., G.Q. Li, C.K. Zeng, F. Wang, S.L. Jin and S.-M. Fu* (傅慎明), Evolutionary mechanisms of the strong winds associated with an intense cold wave event and their effects on the wind power production. Front. Earth Sci., 10:1054037. doi: 10.3389/feart.2022.1054037. (SCI 核心)

(47) Yang, K.-Q.; Xiao, D.-X.; Jiang, X.-W.*; Li, Z.-R.; S.-M. Fu* (傅慎明), Mechanisms Governing the Formation and Long-Term Sustainment of a Northeastward Moving Southwest Vortex. Sustainability, 2023, 15, 9255. https:// doi.org/10.3390/su15129255. (SCI 核心)

(48) Yang, K.-Q.; Xiao, D.-X.; Jiang, X.-W.*; Mai, Z.; S.-M. Fu* (傅慎明), 2023: Case study on the formation of a torrential‐rainfall‐producing southwest vortex: Backward trajectory analyses and sensitivity simulations. Atmospheric Science Letters, e1210. https://doi.org/10.1002/asl.1210. (SCI核心)

(49) Huang, T.‐T., S.-M. Fu* (傅慎明), Z.-G. Wang, S. Zhao, J.‐H. Sun, Y. Zhang, and S.‐H. Wang, 2024: A case study on the rainstorm‐producing mesoscale vortices in central‐eastern China. J. Geophys. Res. Atmos., 129, e2023JD039573. https://doi.org/10.1029/ 2023JD039573. (SCI核心)

(50) Li, W., X.-Y. Shen, S.-M. Fu* (傅慎明), W.-L. Li, 2015: Quadrant-averaged structure and evolution mechanisms of a northeast cold vortex during its mature stage, Atmos. Oceanic Sci. Lett., 8, 45–51. (核心)

(51) 麦子，傅慎明*，孙建华，2020：近16年暖季青藏高原东部两类中尺度对流系统（MCS）的统计特征.气候与环境研究，25, 385-398. (核心)

(52) Jin, S.-L., and S.-M. Fu* (傅慎明), 2019: Mechanisms accounting for the repeated occurrence of torrential rainfall over the south Thailand in early January 2017. Atmos. Oceanic Sci. Lett., 13, 55-162. (核心)

(53) 汤欢，傅慎明*，孙建华，麦子，靳双龙，张元春，2020：一次高原东移MCS与下游西南低涡作用并产生强降水事件的研究.大气科学，44: 1275-1290. DOI: 10.3878/ j.issn.1006-9895.2011.11162. (核心)

(54) 周文，王晓芳，傅慎明*，2020：引发强降水的一次东移高原云团的能量演变特征研究.大气科学，44: 885-898. (核心)

(55) Jiang, L.-Z., S.-M., Fu*(傅慎明), and J.-H. Sun, 2020: A new method for detecting the extratropical cyclone: the eight-section slope detecting method. Atmos. Oceanic Sci. Lett., 13: 436-442. (核心)

(56) Jin, S.-L., S.-L. Feng, W. Shen, S.-M. Fu*(傅慎明), L.-Z. Jiang, J.-H. Sun, 2020: Energetics characteristics accounting for the low-level wind’s rapid enhancement associated with an extreme explosive extratropical cyclone over the western North Pacific Ocean. Atmos. Oceanic Sci. Lett., 13: 426-435. (核心)

(57) 杨雯婷，傅慎明*，孙建华，郑飞，卫捷，2021：近 32 年泰国降水的主要变化趋势研究，大气科学，46, 263−274. (核心)

(58) 汤欢, 傅慎明*，孙建华, 周象贤. 2023. 基于高分辨率再分析风场的高原涡三维识别技术及应用. 大气科学, 47, 698−712. (核心)

(59) 张敬萍, 靳双龙, 冯双磊, 韩洪*，傅慎明*，2023. 中尺度涡旋客观识别与三维追踪的新方法及其效果评估. 大气科学, 47, 1434−1450. (核心)

(60) Yu, J.H., H. Ma, S.-M. Fu*(傅慎明), X.-L. Su, X.-Q. Chang, Y.-N. Fu, Long-term variations of the solar energy in different subregions of Northwest China and associated mechanisms, Atmos. Oceanic Sci. Lett., https://doi.org/10.1016/j.aosl.2024.100515. (核心)

(61) 李梓睿，傅慎明*，关少平，原辉等，强降水型西南低涡族的个例研究，大气科学，doi:10.3878/j.issn.1006-9895.2404.23122. (核心)

部分专利:

（1）汤欢，傅慎明，张敬萍，孙建华，李万莉，张元春，2021：一种涡旋的识别方法、装置、存储介质及电子设备，ZL202110525651.2.

（2）张敬萍，傅慎明，汤欢，孙建华，李万莉，张元春，2021：气象领域识别涡旋的方法、装置、存储介质及电子设备，ZL202110525677.7.

（3）付亚男，张元春，孙建华，魏倩，傅慎明，2024：中尺度对流系统的识别方法和装置. CN118519212A.

（1）国家自然科学基金委青年项目：梅雨期大别山地区中尺度涡旋的活动特征及演变机理研究（41205027），2013.01 - 2015.12，项目负责人

（2）国家自然科学基金委面上项目：夏季大别山地区中尺度涡旋的频发机理及其对背景场的反馈（41775046），2018.01-2021.12，项目负责人

（3）国家自然科学基金委面上项目：暖季华南地区持续性暴雨维持的三维能量路径及升尺度级串反馈研究（42075002），2021.01-2024.12，项目负责人

（4）国家自然科学基金委面上项目：大别山涡背景下强对流天气的活动特征及触发演变机理（42475008），2025.01-2028.12，项目负责人