一作/通讯论文：

1. Yu, H., W. Zhang, Z. Zhang^*, Z. Li, and X. Chen (2020). Investigation on the dynamic rupture of the 1970 M_S 7.7 Tonghai, Yunnan, China, earthquake on the Qujiang fault. Bulletin of the Seismological Society of America, 110(2): 898-919.

2. Yu, H., F. Hu, J. Xu, Z. Zhang^*, and X. Chen (2022). Dynamic rupture simulation of the 1833 Songming, Yunnan, China, M 8.0 earthquake: Effects from stepover location and overlap distance. Earth and Space Science, 9(2), e2021EA002100.

3. Yu, H., Z. Zhang, F. Hu, D. Xu, and X. Chen^* (2023). Estimation of the hypocenter location and rupture extent of the 1850 Xichang, Sichuan, China, earthquake by dynamic rupture simulations on a multi-segment stepover structure. Earth and Space Science, 10(6), e2022EA002775.

4. Li, Y., H. Yu^*, M. Wang, X. Ye, K. Liu, Z. Zhang, W. Zhang, and X. Chen (2024). The physics-based full-chain earthquake disaster scenarios for the Zhujiangkou fault within the Guangdong-Hong Kong-Macao Greater Bay Area of southern China. npj Natural Hazards, 2, 6.

5. 纪志伟, 余厚云^*, 李宗超, 琚长辉, 孙耀充, 张永仙和陈晓非 (2025). 2025年1月7日定日M_S 6.8 地震长周期地震动初步模拟. 地震地质, 47(3): 917-931.

6. Ji, Z., H. Yu^*, Z. Li, C. Ju, Z. Yu, Y. Zhang, and X. Chen (2025). Velocity pulse characteristics and basin effect of the 1970 Tonghai earthquake based on the dynamic rupture simulation. Soil Dynamics and Earthquake Engineering, 199, 109719.

7. Yu, H., Y. Li^*, X. Ye, W. Wang, C. Wang, Z. Zhang, W. Zhang, and X. Chen (2025). Study on the influence of complex fault geometry on earthquake risk assessment based on physical simulation: A case study of the Zhujiangkou Fault in the Guangdong-Hong Kong-Macao Greater Bay Area. Geomatics, Natural Hazards and Risk, 16(1), 2548502.

8. 赵帅, 禹振江, 余厚云^*, 徐杜远, 陈晓非, 张振国, 谭晓迪, 吕潇然, 孙佳珺, 王飞和罗桂纯 (2026). 基于动力学破裂过程的设定地震模拟参数评估—以顺义—良乡断层北段为例. 地球物理学报, 已接收.

9. Yu, H., F. Hu, T. Xu, W. Zhang, D. Xu, Z. Zhang, and X. Chen^*(2026). Constraining the Seismogenic Fault Geometry of the 1923 Renda M 7.2 Earthquake on the Nonplannar Northwestern Xianshuihe Fault with Dynamic Rupture Simulations. Seismological Research Letters, accepted.

10. Xu, D., H. Luo, H. Yu^*, Z. Peng, H. Zhu, W. Wang, J. Xu, L. Jiao, S. Dong, G. Bao, Z. Ren, and X. Chen (2026). Sediments-modulated supershear rupture of the 2025 Mw 7.7 Myanmar earthquake. Communications Earth & Environment, accepted.

合作论文：

1. Wang, W., Z. Zhang^*, W. Zhang, H. Yu, Q. Liu, W. Zhang, and X. Chen (2022). CGFDM3D-EQR: A Platform for Rapid Response to Earthquake Disasters in 3D Complex Media. Seismological Research Letters, 93(4): 2320-2334.

2. Xu, D., Z. Zhang, Y. Qian, H. Yu, and X. Chen^* (2022). Dynamic Modeling of the 2020 M_W 6.0 Jiashi Earthquake: Constrained by Geodetic and Seismic Observations. Seismological Research Letters, 96(3): 3278-3290.

3. Xu, D., W. Gong, Z. Zhang, J. Xu, H. Yu, and X. Chen^* (2023). The 2016 Menyuan earthquake: the largest self-arrested crustal earthquake ever observed. Geophysical Research Letters, 50(11), e2023GL103556.

4. 胡峰^*, 姚华建, 余厚云, 卢泽昱, 侯杰议, 罗松, 邵志刚和陈晓非 (2024). 分形应力对设定地震构建的影响—以郯庐断裂带为例. 中国科学：地球科学, 54(5): 1714-1724.

5. Li, Y., Z. Wang, Z. Zhang^*, Y. Gu, H. Yu (2024). A physics-based seismic risk assessment of the Qujiang fault: From dynamic rupture to disaster estimation. International Journal of Disaster Risk Science, 15: 165-177.

6. Xu, D., Z. Li, Z. Zhang, H. Yu, J., Xu, Z. Yang, and X. Chen^* (2024). The 2022 M_W 6.6 Menyuan earthquake: An early-terminated runaway rupture by the complex fault geometry. Earth and Planetary Science Letters, 638, 118746.

7. 朱艺帆, 安超^*, 余厚云, 张伟和陈晓非 (2024). 基于非静压模型的粤港澳湾区精细海啸灾害评估. 中国科学：地球科学, 54(7): 2363-2388.

8. Yao, Q., H. Yu, C. Yu^*, X. Chen, and J. Xie (2025). Source parameters and ground motion simulation of the 2023 M_W 5.5 Pingyuan earthquake in the north China plain. Seismological Research Letters, 96(4): 2115-2127.

9. 沈朱悦, 赵顺, 孙耀充^*, 徐杜远, 余厚云, 臧楠, 王春静 (2025). 大型低角度断层和巨厚沉积盆地对强地面运动影响的研究：以新疆喀什地区的逆断层为例. 地震地质, 47(2): 610-626.

10. Li, X., Z. Wang, Y. Li^*, H. Yu, Z. Zhang, W. Zhang, and X. Chen (2025). Rupture dynamics of the Middle Section of Littoral Fault Zone: Potential Maximum Magnitude and Cascading Rupture Analysis. Seismological Research Letters, 96(5): 2916-2927.

11. Yu, Z., Q. Liu, X. Chen^*, W. Zhang, H. Yu (2026). Collaborative parallel implementation of 3D curved grid finite difference elastic wave simulation method. Seismological Research Letters, accepted.

12. Xu, T., H. Yu, W. Wang, Z. Wang, and Z. Zhang^*(2026). A mixed efficient AWENO scheme to model cross-fault ground motions and its applications. Seismological Research Letters, accepted.

13. Wang, C., W. Zhang, H. Yu, X. Feng, D. Xu, and X. Chen^*(2026). How the crossing fault influences the dynamic rupture process, insights from the Littoral Fault Zone, China.  Bulletin of the Seismological Society of America, accepted.

14. 谭晓迪, 余厚云, 陈晓非, 禹振江^*, 孙楠, 陈晓非, 吕潇然, 赵帅, 孙佳珺, 孟勇琦, 王飞和罗桂纯 (2026). 基于顺义—良乡北断层设定地震的北京市区域强地面运动模拟研究. 地球物理学报, 已接收.