地球物理智能勘探、地震地质灾害机理与风险评估、震源动力学模型开发与应用、滨海城市地面沉降研究、降雨型滑坡灾害风险评估

国家海外高层次人才（青年）项目2025负责人

上海海外领军人才项目2024负责人

国家重点研发计划“东南降雨型滑坡风险精准识别防御关键技术”专题负责人

中央高校科研项目“城市深层工程地质结构高精度智能化反演技术开发”负责人

中央高校科研项目“降雨型滑坡时空多尺度风险区划研究”负责人

[1]   Sun, J., Nagashima, F., Kawase, H., Matsushima, S., 2020. Site Effects Analysis of Shallow Subsurface Structures at Mashiki Town, Kumamoto, Based on Microtremor Horizontal‐to‐Vertical Spectral Ratios. Bulletin of the Seismological Society of America. https://doi.org/10.1785/0120190318

[2]   Sun, J., Nagashima, F., Kawase, H., Matsushima, S., Baoyintu, 2021. Simulation of building damage distribution in downtown Mashiki, Kumamoto, Japan caused by the 2016 Kumamoto earthquake based on site-specific ground motions and nonlinear structural analyses. Bulletin of Earthquake Engineering. https://doi.org/10.1007/s10518-021-01119-8

[3]   Sun, J., Kawase, H., Fukutake, K., Nagashima, F., Matsushima, S., 2022. Simulation of soil liquefaction distribution in downtown Mashiki during 2016 Kumamoto earthquake using nonlinear site response. Bulletin of Earthquake Engineering. https://doi.org/10.1007/s10518-022-01426-8

[4]   Y. Sun and J. Sun, “Perception, preparedness, and response to tsunami risks in an aging society: Evidence from Japan,” Safety Science, vol. 118, pp. 466–474, Oct. 2019, doi: 10.1016/j.ssci.2019.05.060.

[5]   H. Kawase, J. Sun, A. Pitarka, F. Nagashima, and E. Ito, “Rupture dynamic simulation considering spatial fluctuation of stress drop - case study of Mw6.5 class rupture,” Hokuriku, Japan: Architectural Institute of Japan Assembly Synopsis, Sep. 2019. Available: https://www.aij.or.jp/paper/detail.html?productId=629021.

[6]   Pitarka, J. Sun, and H. Kawase, “Collaborative study on Earthquake Ground Motion Simulation Using Rupture Dynamics,” Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States), Technical Report LLNL-TR-770637, Mar. 2019. Available: 10.2172/1512610.

[7]   Kawase Hiroshi, Jikai Sun, Fumiaki Nagashima, Eri Ito and Arben Pitarka, Dynamic rupture simulation considering spatial heterogeneity Spatial variation of slip amount and slip velocity and its modeling, 15th Annual Conference of the Japan Society of Earthquake Engineering, December 2-3 Japan 2020.

[8]   Y. Sun and J. Sun, “Self-assessment of tsunami evacuation logistics: Importance of time and earthquake experience,” Transportation Research Part D Transport and Environment, vol. 87, Aug. 2020, doi: 10.1016/j.trd.2020.102512.

[9]   Kawase Hiroshi, Jikai Sun, Arben Pitarka, Luis Dalguer, Eri Ito and Fumiaki Nagashima, Dynamic Rupture Simulations of a Vertical Strike Slip Fault with Heterogeneous Stress Drop Distribution, Proc of 17th World Conf Earthq Eng, 1b-0010, September 27-October 2 Sendai Japan 2021.

[10]   Wang Z, Nakano K, Sun J, et al (2025) Subsurface S-wave velocity structure inversion using particle swarm optimization based on horizontal site response extracted using generalized inversion technique. Soil Dyn Earthq Eng 188:109093. https://doi.org/10.1016/j.soildyn.2024.109093

[11]   Wang Z, Sun J, Ito E, et al (2023) Empirical method for deriving horizontal site amplification factors considering nonlinear soil behaviors based on K-NET and KiK-net records throughout Japan. Bull Earthq Eng 21:4191–4216. https://doi.org/10.1007/s10518-023-01712-z