1. 全球俯冲温度场、岩石相变和脱水分布

2. 三维运动学数值模拟和地震分布统计

3. 震源机制解及应力场变化

4. 多手段地震前兆观测数据处理分析 

2021.12 - 现在, 中国科学院青藏高原研究所, 研究员

2021.06 - 现在, 中国科学院青藏高原研究所, 博士生导师

2019.01 - 2020.12, 中国科学院青藏高原地球科学卓越创新中心, 青年骨干

2018.08 - 2021.12, 中国科学院青藏高原研究所, 副研究员（中科院人才计划引进人才）

2013.09 - 2018.08, 日本神户大学都市安全研究中心, 研究员

2010.04 - 2013.09, 日本神户大学, 地球科学, 博士

2005.09 - 2009.01, 云南大学, 固体地球物理学, 硕士

1996.09 - 2000.06, 湖南大学, 学士

一种板块俯冲热结构参数的数值模拟分析方法, 国家知识产权局专利号: ZL 2020 1 1380542.8, 专利证书号: 第6003130号, 授权公告号: CN 112364577 B.

34. Zhu, Y., Ji, Y.*, Liu, L.*, Zhu, W., Qu, R., Xie, C., Faheem, H., Yoshioka, S., Ding, L. (2023) Heterogeneous slab thermal dehydration driving warm subduction zone earthquakes, Scientific Reports, 13, 21157, https://www.nature.com/articles/s41598-023-48498-3 (共同通讯作者)

33. Qu, R., Ji, Y.*, Liu, L.*, Zhu, W., Zhu, Y., Xie, C., Yoshioka, S., Faheem, H., Ding, L. (2023) Variation in the thermal and dehydration regime below Central America: Insights for the seismogenic plate interface, iScience, 26(10), 107936, https://doi.org/10.1016/j.isci.2023.107936 (共同通讯作者)

32. Fan, W., Zhu, Y., Ji, Y.*, Feng, L., Zhu, W., Qu, R. (2023) Present-day tectonic stress evolution in southern Yunnan based on focal mechanisms. Sensors, 23, 7406, https://doi.org/10.3390/s23177406 (通讯作者)

31. Zhu, W., Ji, Y.*, Liu, L., Qu, R., Zhu, Y., Xie, C., Ding, L. (2023) Reestimation of slab dehydration fronts in Kuril-Kamchatka using updated global subduction zone thermal structures, iScience, 26(8), 107288, https://doi.org/10.1016/j.isci.2023.107288 (通讯作者)

30. Qu, R., Zhu, W., Ji, Y.*, Xie, C., Zeng, D., Zhang, F. (2023) Subduction thermal regime, petrological metamorphism and seismicity under the Mariana arc, Scientific Reports, 13, 1948, https://doi.org/10.1038/s41598-023-29004-1 (通讯作者)

29. Bai, L.*, Liu, C., Ji, Y., Zhu, W. (2023) Infrasound waves and sulfur dioxide emissions caused by the 2022 Hunga volcanic eruption, Tonga, Frontiers in Earth Science, 11:1144496, https://doi.org/10.3389/feart.2023.1144496

28. Gao, J., Zhu, Y., Ji, Y.*, Zhu, W., Qu, R., Li, J., Xu, L., Xie, C. (2023) Low-indensity anomaly involving ML≥4 events preceding strong earthquakes in Tibet, Frontiers in Earth Science, 11:1043468, https://doi.org/10.3389/feart.2023.1043468 (通讯作者)

27. Li, A., Xie, C.*, Ji, Y.*, Zhu, W., Xu, Y., Wang, G., Zhao, X. (2023) Stress inversion and fault instability in the source region of the 2021 MS5.0 Yingjiang earthquake, Applied Sciences-Basel, 13(2), 957, https://doi.org/10.3390/app13020957 (共同通讯作者)

26. Zhu, Y., Ji, Y.*, Zhu, W., Qu, R., Xie, C., Zeng, D. (2023) Subduction hydrothermal regime and seismotectonic variation along Kermadec–Tonga megathrusts, Journal of Asian Earth Sciences, 243, 105532, https://doi.org/10.1016/j.jseaes.2022.105532 (通讯作者)

25. Suenaga, N.*, Banay, Y.A., Yoshioka, S., Sato, K., Tanaka, M., Ji, Y. (2023) Spatiotemporal distributions of afterslip and locking on the plate interface associated with the 2011 Tohoku-Oki earthquake using a 3-D temperature and strain rate-dependent heterogeneous viscosity model, Physics of The Earth and Planetary Interiors, 334, 106901, http://doi.org/10.1016/j.pepi.2022.106971

24. Qu, R., Ji, Y.*, Zhu, W., Zhao, Y., Zhu, Y. (2022) Fast and slow earthquakes in Alaska: Implications from a three-dimensional thermal regime and slab metamorphism, Applied Sciences-Basel, 12, 11139, https://www.mdpi.com/2076-3417/12/21/11139 (通讯作者)

23. Gesang, Z., Zhu, Y.*, Ji, Y.*, Zhu, W., Qu, R., Ciren, D., Xie, C. (2022) Responses of Water Temperature and Level to Large Earthquakes in Tibet. Applied Sciences-Basel, 12, 11584, https://doi.org/10.3390/app122211584 (共同通讯作者)

22. Xie, C.*, Zhu, Y., Ji, Y.*, Zhu, W., Qu, R., Xu, Y., Li, A. (2022) Coseismic stress change and viscoelastic relaxation after the 2008 great Sichuan earthquake. Applied Sciences-Basel, 12, 9585, https://doi.org/10.3390/app12199585 (共同通讯作者)

21. Zhang, J., Zhu, Y.*, Ji, Y.*, Zhu, W., Qu, R., Gongqiu, Z., Xie, C. (2022) Earthquake risk probability evaluation for Najin Lhasa in southern Tibet. Applied Sciences-Basel, 12, 9394, https://doi.org/10.3390/app12189394 (共同通讯作者)

20. Feng, L., Qu, R.*, Ji, Y.*, Zhu, W., Zhu, Y., Feng, Z.*, Fan, W., Guan, Y., Xie, C. (2022). Multistationary geomagnetic vertical intensity polarization anomalies for predicting M≥6 earthquakes in Qinghai, China. Applied Sciences-Basel, 12, 8888, https://doi.org/10.3390/app12178888 (共同通讯作者)

19. Xie, C., Zhu, Y.*, Ji, Y.*, Zhu, W., Qu, R. (2022). Precursory tidal triggering of the 2011 Mw 9.0 Tohoku aftershocks. Applied Sciences-Basel, 12, 8730, https://doi.org/10.3390/app12178730 (共同通讯作者)

18. Zhu, W., Ding, L., Ji, Y.*, Qu, R.*, Zhu, Y., Xie, C., Zeng, D. (2022). Subduction evolution controlled Himalayan orogenesis: Implications from 3-D subduction modeling, Applied Sciences-Basel, 12, 7413, https://doi.org/10.3390/app12157413 (共同通讯作者)

17. Zhu, W., Ji, Y.*, Qu, R.*, Xie, C.*, Zeng, D. (2022). Slab metamorphism and interface earthquakes in Peru: Implications from three-dimensional hydrothermal variation in subducted Nazca plate, Tectonophysics, 823, 229212, http://doi.org/10.1016/j.tecto.2022.229212 (共同通讯作者)

16. Zhu, W., Ji, Y.*, Qu, R.*, Xie, C.*, Yoshioka, S., Zeng, D. (2022). Thermal regime and slab dehydration beneath the Izu-Bonin arc: Implications for fast and slow subduction earthquakes. Terra Nova, 34, 2, 103–112, https://doi.org/10.1111/ter.12568 (Cover image: https://onlinelibrary.wiley.com/toc/13653121/2022/34/2) (共同通讯作者)

15. Ji, Y.*, Yan, R., Zeng, D., Xie, C.*, Zhu, W., Qu, R., Yoshioka, S. (2021). Slab dehydration in Sumatra: Implications for fast and slow earthquakes and arc magmatism, Geophysical Research Letters, 48(3), e2020GL090576, https://doi.org/10.1029/2020GL090576 (第一作者, 共同通讯作者)

14. Ji, Y.*, Yoshioka, S. (2021). Depth variation of seismic moment and recurrence interval in Japan, Geoscience Letters, 8, 4, http://doi.org/10.1186/s40562-020-00173-5 (第一作者, 通讯作者)

13. Qu, R., Ji, Y.*, Zhu, W.* (2021). Variations in wedge earthquake distribution along the strike underlain by thermally controlled hydrated megathrusts. Applied Sciences-Basel, 11, 7268, http://doi.org//10.3390/app11167268 (共同通讯作者)

12. Suenaga N.*, Yoshioka, S., Ji, Y. (2021). 3-D thermal regime and dehydration processes around the regions of slow earthquakes along the Ryukyu Trench, Scientific Reports, 11(1), 11251, https://www.nature.com/articles/s41598-021-90199-2

11. Ji, Y.*, Yoshioka, S., Manea, V., Manea, M., Suenaga, N. (2019). Three-dimensional thermal structure, metamorphism and seismicity beneath north-central Chile, Journal of Geodynamics, 129, 299–312, https://doi.org/10.1016/j.jog.2018.09.004 (第一作者, 通讯作者)

10. Suenaga N.*, Yoshioka, S., Matsumoto, T., Manea, V., Manea, M., Ji, Y. (2019). Two-dimensional thermal modeling of the Philippine Sea plate subduction in central Japan: Implications for gap of low-frequency earthquakes and tectonic tremors, Journal of Geophysical Research solid earth, 124, 6848–6865, https://doi.org/10.1029/2018JB017068 

9. Suenaga, N., Ji, Y.*, Yoshioka, S. Feng, D.* (2018). Subduction thermal regime, slab dehydration, and seismicity distribution beneath Hikurangi based on 3D simulations. Journal of Geophysical Research solid earth, 123, 3080–3097, https://doi.org/10.1002/2017JB015382 (共同通讯作者)

8. Suenaga, N.*, Yoshioka, S., Matsumoto, T., Ji, Y.* (2018). Two-dimensional thermal modeling in southern Kyushu, Japan, Tectonophysics, 723, 288–296, https://doi.org/10.1016/j.tecto.2017.12.017 (共同通讯作者)

7. Ji, Y., Yoshioka, S., Manea, V.*, Manea, M. (2017). Seismogenesis of dual subduction beneath Kanto, central Japan controlled by fluid release, Scientific Reports, 7(1), 16864, http://doi.org/10.1038/s41598-017-16818-z (第一作者)

6. Ji, Y.*, Yoshioka, S., Banay, Y. A. (2017). Thermal state, slab metamorphism and interface seismicity in the Cascadia subduction zone based on 3-D modeling: 3-D thermomechanical model for Cascadia, Geophysical Research Letters, 44, 9242–9252, http://doi.org/10.1002/2017GL074826 (第一作者, 通讯作者)

5. Ji, Y.*, Yoshioka, S. (2017). Slab dehydration and earthquake distribution beneath southwestern and central Japan based on three-dimensional thermal modeling, Geophysical Research Letters, 44, 2679–2686, http://doi.org/10.1002/2016GL072295 (第一作者, 通讯作者)

4. Ji, Y.*, Yoshioka, S., Manea, V. C., Manea, M., Matsumoto, T. (2017). Three-dimensional numerical modeling of thermal regime and slab dehydration beneath Kanto and Tohoku, Japan, Journal of Geophysical Research solid earth, 122, 332–353, http://doi.org/10.1002/2016JB013230 (第一作者, 通讯作者)

3. Ji, Y.*, Yoshioka, S., Matsumoto, T. (2016). Three-dimensional numerical modeling of temperature and mantle flow fields associated with subduction of the Philippine Sea plate, southwest Japan, Journal of Geophysical Research solid earth, 121, 4458–4482, http://doi.org/10.1002/2016JB012912 (第一作者, 通讯作者)

2. Ji, Y.*, Yoshioka, S. (2015). Effects of slab geometry and obliquity on the interplate thermal regime associated with the subduction of three-dimensionally curved oceanic plates. Geoscience Frontiers, 6, 61–78, http://doi.org/10.1016/j.gsf.2014.04.011 (第一作者, 通讯作者)

1. Liu, X.*, Wang, Z., Ji, Y. (2015). Analysis of 4-component borehole strain observation based on strain invariant, Chinese Journal of Geophysics, 57, 818–834, http:/doi.org/10.1002/cjg2.20145

1. 第二次青藏高原综合科学考察研究项目"碰撞隆升机制及环境影响模拟"子专题, 801万元, 中国科学院青藏高原研究所, 2019-2025, 主持

2. 中科院人才计划择优支持项目, 340万元, 中国科学院, 2020-2024, 主持

3. General study for the disaster reduction for a giant earthquake and the tsunami along the coast of Mexico, 日本国际协力机构, 2015-2020, 参与

4. Dynamics of the thermal field, hydraulic transportation, heterogeneity of the mantle wedge and the plate subducted beneath Japan, KAKEN, JSPS, 日本文部省, 2015-2020, 参与

5. Microstructural association of temperature distribution, cyclical change of materials and the seismology under the Japanese Islands associated with slab subduction,  KAKEN, JSPS, 日本文部省, 2010-2014, 参与

6. The investigation and observation, geophysical numerical model construction, and earthquake occurrence simulation for the evaluations of Tokai, Nankai, Tonankai series earthquake, KAKEN, JSPS, 日本文部省, 2010-2014, 参与

26. Ji, Y., Qu, R., Zhu, W. (2024). Fast and slow earthquakes in Alaska: Insights from three-dimensional thermal structure and slab dehydration, P97, Seismological Society of America 2024, Anchorage, USA.

25. Zhu, W., Ji, Y. (2024). Reestimated slab dehydration fronts in Kuril-Kamchatka using updated three-dimensional slab thermal structure, EGU24-4972, EGU General Assembly 2024, Vienna, Austria.

24. Ji, Y., Qu, R., Zhu, W. (2024). Subduction thermal structure and megathrust earthquakes under the Mariana arc, EGU24-7352, EGU General Assembly 2024, Vienna, Austria.

23. Zhu, W., Ji, Y. (2023). Reestimation of three-dimensional slab thermal structure in Peruvian subduction zone, T33C-0337, American Geophysical Union (AGU), San Francisco, USA.

22. 朱葉, 季穎鋒. (2023). ケルマデク・トンガ沈み込み温度場と地震分布変動, S04-04, 日本地震学会大会 (SSJ), 横浜, 日本.

21. クー・ルイ, 季穎鋒. (2023). 中米沈み込み帯三次元熱構造とスロー地震分布, S07-11, 日本地震学会大会 (SSJ), 横浜, 日本.

20. 朱偉齢, 加藤愛太郎, 季穎鋒. (2023). 伊豆・小笠原沈み込み帯におけるスロー地震分布と熱構造のモデル化, S09P-10, 日本地震学会大会 (SSJ), 横浜, 日本.

19. Faheem, H., Khattak, Z., Ji, Y., Zhu, W., Qu, R., Zhu, Y. (2023). Land use land cover changes (LULCC) analysis using geospatial data (2000-2020) in Karak Pakistan, 2023年中国地球科学联合学术年会 (CGU), 珠海, 中国.

18. 朱叶, 季颖锋, 朱伟龄, 瞿睿. (2023). 非均质板热脱水驱动暖俯冲带地震, 2023年中国地球科学联合学术年会 (CGU), 珠海, 中国.

17. 瞿睿, 季颖锋, 朱伟龄, 朱叶. (2023). 喜马拉雅东构造结深部地幔流场数值模拟, 2023年中国地球科学联合学术年会 (CGU), 珠海, 中国.

16. 朱叶, 季颖锋, 朱伟龄, 瞿睿. (2023). 克马德克-汤加俯冲热液体系与地震构造变化, S15-P-2S, 第七届地球系统科学大会 (CESS), 上海, 中国.

15. 瞿睿, 朱伟龄, 季颖锋, 解朝娣, 曾登, 张帆. (2023). 马里亚纳岛弧下俯冲板块温度结构、岩石相变和地震活动, S20-P-1S, 第七届地球系统科学大会 (CESS), 上海, 中国. 

14. 朱伟龄, 季颖锋, 瞿睿, 朱叶. (2023). 伊豆-小笠原俯冲带的冷鼻范围与板幔解耦深度, S17-O-18, 第七届地球系统科学大会 (CESS), 上海, 中国.

13. Zhu, W., Ji, Y., Yoshioka, S. (2023). Thermal regime and slab dehydration beneath the Izu-Bonin arc: Implications for fast and slow subduction earthquakes, SCG45-26, Japan Geoscience Union (JPGU), Chiba, Japan.

12. 朱叶, 朱伟龄, 季颖锋, 瞿睿. (2022). 日本丛震地震矩-复发间隔分布及余震回归, 地震地磁观测与研究, 43(S1): 250-252.

11. 瞿睿, 季颖锋, 朱伟龄, 朱叶. (2022). 东喜马拉雅构造结地震活动及地幔流场, 地震地磁观测与研究, 43(S1): 7-9. 

10. 朱伟龄, 季颖锋, 瞿睿, 朱叶. (2022). 喜马拉雅三维隆升过程及其动力学研究, 地震地磁观测与研究, 43(S1): 46-48.

9. 瞿睿, 季颖锋, 朱伟龄. (2021). 阿拉斯加俯冲带三维俯冲温度场、岩石相变和地震分布, 2021年中国地球科学联合学术年会 (CGU), 珠海, 中国. 

8. 朱伟龄, 季颖锋, 瞿睿. (2021). 伊豆-小笠原俯冲带三维俯冲温度场、板块脱水和岩石相变, 2021年中国地球科学联合学术年会 (CGU), 珠海, 中国.

7. 朱伟龄, 季颖锋, 瞿睿. (2021). 苏门答腊俯冲温度场、岩石相变和地震分布, S33-P-01, 第六届地球系统科学大会 (CESS), 上海, 中国.

6. Ji, Y., Yoshioka, S. (2017). Interplate thermal regime and slab dehydration at the source region of episodic tremor and slow slip events in the Cascadia subduction zone, J06-4-04, IAG-IASPEI 2017, Kobe, Japan.

5. Ji, Y., Yoshioka, S. (2017). Thermal regime and slab dehydration in the subducted Juan de Fuca plate beneath the Cascadia subduction zone based on 3D numerical simulation, SSS04-P63, JpGU-AGU Joint Meeting 2017, Chiba, Japan

4. Ji, Y., Yoshioka, S. (2016). Thermal regime, slab dehydration and seismicity distribution beneath the Hikurangi subduction zone based on 3D simulation, T21C-2834, American Geophysical Union (AGU), San Francisco, USA.

3. Ji, Y., Yoshioka, S., (2016) Slab dehydration, thermal regime, the distribution of tectonic tremors and seismicity beneath Hikurangi, S05-02, Seismological Society of Japan (SSJ), Aichi, Japan.

2. Ji, Y., Yoshioka, S., Matsumoto, T. (2016) Three-dimensional numerical modeling for subduction thermal regime, slab dehydration, and mantle flow beneath Kanto to Tohoku, Japan, S-CG57-08, Japan Geoscience Union (JPGU), Chiba, Japan.

1. Ji, Y., Yoshioka, S. (2016) Seismic distribution and dehydration of MORB associated with subduction of the Pacific and the Philippine Sea plates beneath the Tohoku and Kanto districts, Japan, W-61, AGU Chapman Conference on the Slow Slip Phenomena, Ixtapa, Mexico.

1. 2022年度云南大学校级优秀本科毕业论文奖（朱叶, 2022年5月）

2. 2022年度中国科学院大学硕士研究生国家奖学金（瞿睿, 2022年12月）

3. 2023年度中国科学院大学硕士研究生校级三好学生（朱叶, 2023年5月）

4. 2023年度中国科学院大学博士研究生优秀学生干部（朱伟龄, 2023年5月）

5. 2022年度云南大学省级优秀硕士毕业论文（朱伟龄, 2023年12月）

欢迎同学们报考本课题组，联系邮件 yingfengji@itpcas.ac.cn