-2024
[23] Chen, J., Liu, C.*, Dal Zilio, L., Cao, J.L., Wang, H., Yang, G.L., GöÄŸüÅŸ, O. H., Zhang, H., Shi, Y.L., 2024. Decoding Stress Patterns of the 2023 Türkiye-Syria Earthquake Doublet. Journal of Geophysical Research (Solid Earth), 129 (10):1-21. http://doi.org/10.1029/2024JB029213
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-2022
[22] Chen J.Q., Liu, C.*, Zhang, H., Shi, Y.L. 2022, Seismic activities and hazards of the seismic gaps in the Haiyuan fault in northeastern Tibet: Insights from numerical modelling earthquake interaction. Earth and Space Science, 9 (11): 1-14.
[21] Liu, C.* and Shi, Y.L., 2022. The role of fault interaction on earthquake migration in central Sulawesi, Indonesia. Tectonophysics, 839(20):1-14.
[20] Liu, C.*, Zhang, H., Chen, JQ., Shi, Y., 2022. Stress evolution before and after the 2021 Mw 7.3 Maduo earthquake in northeastern Tibet and its influence on seismic hazard. Earth and Space Science, 9(6): 1-15.
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-2021
[19] Liu, C.* & Shi, Y. 2021. Space-time stress variations on the Palu-Koro fault impacting the 2018 Mw 7.5 Palu earthquake and its seismic hazards. Geochemistry, Geophysics, Geosystems, 22 (5), 1-11.
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-2020
[18] Liu, C.*, Zhu, B.j., Shi, Y.L., 2020. Do the two seismic gaps in the southwest Longmen Shan fault present the same hazards? Journal of Geophysical Research (Solid Earth), 2020, 125(3):1-23.
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-2018
[17] Liu, C.*, Dong, P.Y., Zhu, B.j., Shi, Y.L., 2018. Stress shadow on the southwest portion of the Longmen Shan fault impacted the 2008 Wenchuan earthquake rupture. Journal of Geophysical Research (Solid Earth),123.
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-2017
[16] Liu, C.*, Dong, P.Y., Shi, Y.L., 2017. Recurrence interval of the 2008 Mw 7.9 Wenchuan earthquake inferred from geodynamic modelling stress buildup and release. Journal of Geodynamics, 110:1-11.
[15] Liu, C.*, Dong, P.Y. *, Shi, Y.L., 2017. Stress change from the 2015 Mw 7.8 Gorkhar earthquake and increased hazard in the southern Tibetan Plateau. Physics of the Earth and Planetary Interiors, 267:1-8.
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-2016
[14] Liu, C.*, Zhu, B.J., Shi, Y.L., 2016. Lithospheric rheology and Moho upheaval control the generation mechanism of the intraplate earthquakes in the North China Basin. Journal of Asian Earth Sciences, 121:153-164.
[13] Liu, C.*, Zhu, B.J., Yang, X.L., Shi, Y.L., 2016. Geodynamic background of the 2008 Wenchuan earthquake based on 3D visco-elastic numerical modelling. Physics of the Earth and Planetary Interiors, 252:23-36.
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-2015
[12] Liu, C.*, Zhu, B.J., Yang, X.L., 2015. Crustal rheological strength heterogeneities control the formation of continental plateau margin. Journal of Asian Earth Sciences, 107: 62-71.
[11] Liu, C.*, Zhu, B.J., Yang, X.L., Shi, Y.L., 2015. Crustal rheology control on earthquake activity across the eastern margin of the Tibetan Plateau: insights from numerical modelling. Journal of Asian Earth Sciences, 100: 20-30.
[10] Liu, C.*, Zhu, B.J., Yang, X.L., 2015. How does crustal shortening contribute to the uplift of the eastern margin of the Tibetan Plateau? Journal of Asian Earth Sciences, 98: 18-25.
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-2014
[9] Liu, C., Shi, Y.L., Zhu, B.J., Cheng, H. H., Yang, X.L., 2014. Crustal rheology control on the mechanism of earthquake generation at the Longmen Shan fault. Chinese Journal of Geophysics, 57 (2): 404-418. (in Chinese)
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-2012
[8] Liu, C., Shi, Y.L., Zheng, L., Zhu, B.J., 2012. Relation between earthquake spatial distribution and tectonic stress accumulation in the North China Basin based on 3D visco-elastic modelling. Chinese Journal of Geophysics, 55(12):3942-3957. (in Chinese)
[7] Liu, C., Zhu, B.J., Shi, Y.L., 2012. Stress accumulation on the Longmenshan fault and recurrence interval of Wenchuan earthquake based on viscoelasticity simulation. Acta Geologica Sinica, 86(1) :157-169. (in Chinese)
[6] Zhu, B.J., Liu, C., Shi, Y.L., 2012. Saturated dislocations transient propagation-evolution in olivine structure under ultra high-coupled thermal-force fields. Theoretical and Applied Fracture Mechanics, 58(1): 9-20.
[5] Zhu, B.J., Cheng, H.H., Qiao, Y.C., Liu, C., Shi, Y.L., Zhang, K., Sun, D.S., Lin, W.R., 2012. Porosity and permeability evolution and evaluation in anisotropic porosity multiscale multiphase multicomponent structure. Chinese Science Bulletin, 57(4): 320-327.
[4] Cheng, H.H., Qiao, Y.C., Liu, C., Li, Y.B., Zhu, B.J., Shi, Y.L., Sun, D.S. Zhang, K., Lin, W.R., 2012. Extended hybrid pressure and velocity boundary conditions for D3Q27 Latice Boltzmann model. Applied Mathematical Modelling, 36(5): 2031-2055.
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-2011
[3] Liu, C., Zhu, B.J., Shi, Y.L., 2011. Coseismic stress variation and numerical analysis of 2011 Japan–Honshu 9.0 earthquake. Theoretical and Applied Fracture Mechanics, 55(2):118-130.
[2] Zhu, B.J., Liu, C., Shi, Y.L., Sun, D.S. Zhang, K.,2011. Application of flow driven pore-network crack model to Zipingpu reservoir and Longmenshan slip. Science China (D), 54(8):1532-1540.
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-2010
[1] Zhu, B.J., Liu, C., Shi, Y.L., 2010. Application of hypersingular integral equation method to earthquake fault of Wenchuan. Sciences and Technology Review, 28(5): 49-54. (in Chinese)