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南方科技大學(xué)副教授。2014年畢業(yè)于武漢大學(xué)測繪學(xué)院，獲學(xué)士學(xué)位；2017年畢業(yè)于武漢大學(xué)測繪學(xué)院，獲大地測量學(xué)碩士學(xué)位；2021年畢業(yè)于加拿大維多利亞大學(xué)，獲地球動力學(xué)博士學(xué)位。2022-2024年，先后在加拿大麥吉爾大學(xué)，加拿大維多利亞大學(xué)和新加坡地球與觀測研究所工作。2024年4月加入南方科技大學(xué)地球與空間科學(xué)系。

 教育背景

 2017-2021，地球動力學(xué)博士，加拿大維多利亞大學(xué)

 2014-2017，大地測量學(xué)碩士，武漢大學(xué)測繪學(xué)院

 2010-2014，測繪工程學(xué)士，武漢大學(xué)測繪學(xué)院

 工作經(jīng)歷

 2024.04      至今，副教授，南方科技大學(xué) 

 2023.08-2024.04，研究員，新加坡地球與觀測研究所

 2023.01-2023.08，副研究員，加拿大維多利亞大學(xué)

 2022.01-2022-12，博士后，加拿大麥吉爾大學(xué)

 榮譽(yù)獎項(xiàng)

 2023，國家級海外高層次人才

 2020，美國地球物理學(xué)會年會優(yōu)秀報告

 專業(yè)服務(wù)

 AGU會議召集人（首要召集人；2022，2024（已提交））

 AGU OSPA 顧問成員 (2021)

 邀請報告 

·  Luo, H., Ma, Z., Zeng, H., & Wei, S.# (2024). The 2024 Mw 7.5 Noto Earthquake, shallow rupture with a stagnant initiation in a fluid-rich immature fault zone (No. EGU24-22563). European Geosciences Union General Assembly 2024.

·  Luo, H.# (2024). Deformation Cycles in a Viscoelastic Earth: Development of the Secondary Zone of Subsidence during Interseismic Deformation of Subduction Earthquakes. Geological Survey of Canada-Pacific Geoscience Centre seminar, 2024.

·  Luo, H.#, & Wang, K. (2023). Complex postseismic vertical motion following megathrust earthquakes explained by simple mechanisms. European Geosciences Union General Assembly 2023. (in session TS3.6 “Inter- and intraplate seismicity in subduction zones”)

·  Luo, H.#, & Wang, K. (2021). Slab subduction vs. slab window: structural and rheological contrasts reflected in uplift measurements north and south of the Chile Triple Junction. American Geophysical Union, Fall Meeting 2021. (Invited eLightning presentation)

(#受邀報告人)

論文專著

[12] Wang, K.*, Luo, H., He, J., & Carvajal, M. (2025). Soft barrier to megathrust rupture enabled by serpentinized mantle wedge: The Chile subduction zone. Earth and Planetary Science Letters, 650, 119115.

[11] Ma, Z.#, Zeng, H.#, Luo, H.*, Liu, Z., Jiang, Y., Aoki, Y., Wang, W., Itoh, Y., Lyu, M., Cui, Y., Yun, S.-H., Hill, E. M., Wei, S.*. Slow Rupture in a Fluid-rich Fault Zone Initiated the 2024 Mw 7.5 Noto Earthquake. Science. https://www.science.org/doi/10.1126/science.ado5143.

[10] Luo, H.*, & Wang, K.* (2022). Finding simplicity in the complexity of postseismic coastal uplift and subsidence following great subduction earthquakes, Journal of Geophysical Research: Solid Earth, doi: 10.1029/2022JB024471.

[9] Russo, R.M., Luo, H., Wang, K., Ambrosius, B., Mocanu, V.*, He, J., James, T., Bevis, M. & Fernandes, R. (2022). Lateral variation in slab window viscosity inferred from global navigation satellite system (GNSS)–observed uplift due to recent mass loss at Patagonia ice fields, Geology, 50(1), 111-115, doi: 10.1130/G49388.1.

[8] Carvajal, M.*, Sun, T.*, Wang, K., Luo, H., & Zhu, Y. (2022). Evaluating the Tsunamigenic Potential of Buried Versus Trench‐Breaching Megathrust Slip. Journal of Geophysical Research: Solid Earth, e2021JB023722, doi: 10.1029/2021JB023722.

[7] Luo, H.*, & Wang, K.* (2021). Postseismic geodetic signature of cold forearc mantle in subduction zones, Nature Geoscience, 14, 104-109, doi: 10.1038/s41561-020-00679-9.

[6] Luo, H., Ambrosius, B., Russo, R.M., Mocanu, V., Wang, K.*, Bevis, M. & Fernandes, R. (2020). A recent increase in megathrust locking in the southernmost rupture area of the giant 1960 Chile earthquake. Earth and Planetary Science Letters, 537, 116200, doi: 10.1016/j.epsl.2020.116200.

[5] Luo, H., Wang, K.*, Sone, H. & He, J. (2019). A model of shallow viscoelastic relaxation for seismically induced tension cracks in the Chile‐Peru forearc. Geophysical Research Letters, 46(19), 10773-10781, doi: 10.1029/2019GL084536.

[4] Chen, T.*, Luo, H., & Furlong, K.P. (2017). A Bayesian rupture model of the 2007 Mw 8.1 Solomon Islands earthquake in Southwest Pacific with coral reef displacement measurements. Journal of Asian Earth Sciences, 138, 92-97, doi: 10.1016/j.jseaes.2017.01.032.

[3] Luo, H., Chen, T.*, Xu, C. & Sha, H. (2017). Fault dip angle determination with the j?i criterion and coulomb stress changes associated with the 2015 Mw 7.9 Gorkha Nepal earthquake revealed by InSAR and GPS data. Tectonophysics, doi: 10.1016/j.tecto.2016.08.024.

[2] Luo, H., & Chen, T.* (2016). Three-Dimensional Surface Displacement Field Associated with the 25 April 2015 Gorkha, Nepal, Earthquake: Solution from Integrated InSAR and GPS Measurements with an Extended SISTEM Approach. Remote Sensing, 8(7), 559, doi: 10.3390/rs8070559.

[1] Luo, H., Liu, Y.*, Chen, T., Xu, C., & Wen, Y. (2016). Derivation of 3-D surface deformation from an integration of InSAR and GNSS measurements based on Akaike's Bayesian Information Criterion. Geophysical Journal International, 204(1), 292-310, doi: 10.1093/gji/ggv453.

(*通訊作者;  #共同一作)