Research

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科研进展

  • *Huang, Z., Zhao, D., 2022. Seismotectonics of Mongolia and Baikal Rift Zone Controlled by Lithospheric Structures. Geophysical Research Letters 49, e2022GL099525.
  • Wu, H., *Huang, Z., 2022. Upper mantle anisotropy and deformation beneath the western Mongolian Plateau revealed by SKS splitting. Tectonophysics 835, 229376.
  • Wang, X., Wu, H., Wang, H., *Wu, B., *Huang, Z., 2022. Rayleigh wave tomography of central and southern Mongolia. Tectonophysics 836, 229426.
  • Zhang, C., *Huang, Z., 2022. D″ anisotropy inverted from shear wave splitting intensity. Earthquake Science 35, 93–104.
  • Gou, T., *Xia, S., Huang, Z., Zhao, D., 2022. Structural Heterogeneity of the Alaska‐Aleutian Forearc: Implications for Interplate Coupling and Seismogenic Behaviors. JGR Solid Earth 127, e2022JB024621.
  • Han, C., *Huang, Z., Hao, S., Wang, L., Xu, M., Hammond, J.O.S., 2022. Restricted lithospheric extrusion in the SE Tibetan Plateau: Evidence from anisotropic Rayleigh-wave tomography. Earth and Planetary Science Letters 598, 117837.
  • Hu, X. *Xu, Mijian, Xu, Mingjie, *Zhang, Y., Huang, Z., 2022. A relic thickened crustal root beneath the Cenozoic rift zone of the NW Ordos margin, North China, revealed by receiver functions. Physics of the Earth and Planetary Interiors 333, 106953.
  • *Xu, M., *Yu, D., Huang, Z., Tong, P., Hao, S., Ruan, Y., Han, C., 2022. Crustal and Uppermost Mantle Heterogeneities Across the Ailaoshan Red River Shear Zone, SE Tibet: Implications for Cenozoic Magmatic Activity. JGR Solid Earth 127, e2021JB023656.
  • *Zhao, H., *Huang, Z., Yuan, X., 2022. Stepwise Lithospheric Delamination Leads to Pulsed Cenozoic Uplifts of Central Tien Shan. Lithosphere 2022, 4938310.
  • Yu, Z.H., Wang, T.*, Sun, P.Y., Wang, W.C. and Guo, Z.B., 2022, Active source seismic first-arrival pickup method based on small sample convolutional neural network, Geological Journal of China Universities (in Chinese), doi: 10.16108/j.issn1006-7493.2021060.
  • Xu, M., Yu, D., Huang, Z., Tong, P., Hao, S., Ruan, Y., & Han, C. (2022). Crustal and uppermost mantle heterogeneities across the Ailaoshan Red River shear zone, SE Tibet: Implications for Cenozoic magmatic activity. Journal of Geophysical Research: Solid Earth, 127, doi:10.1029/2021JB023656
  • L. Buijze, H. Weng, and J.P. Ampuero, Physics-based estimates of the maximum magnitude of induced earthquakes in the Groningen gas field (application part), In manuscript, 2022
  • H. Weng, L. Buijze, and J.P. Ampuero, Physics-based estimates of the maximum magnitude of induced earthquakes in the Groningen gas field (theory part), In manuscript, 2022
  • H. Weng and J.P. Ampuero, Integrated rupture mechanics for slow slip events and earthquakes. Accepted at Nature Communications, 2022
  • Hao, S., *Huang, Z., Han, C., Wang, L., Xu, M., Mi, N., Yu, D., 2021. Layered crustal azimuthal anisotropy beneath the northeastern Tibetan Plateau revealed by Rayleigh-wave Eikonal tomography. Earth and Planetary Science Letters 563, 116891.
  • *Huang, Z., Chevrot, S., 2021. Mantle dynamics in the SE Tibetan Plateau revealed by teleseismic shear-wave splitting analysis. Physics of the Earth and Planetary Interiors 313, 106687.
  • *Huang, Z., Gou, T., Wang, L., 2021. P and S wave tomography of east-central China: insight into past and present mantle dynamics. Tectonophysics 809, 228859.
  • *Huang, Z., Zhao, D., 2021. Mantle Convection in Subduction Zones: Insights from Seismic Anisotropy Tomography, in: Marquardt, H., Ballmer, M., Cottaar, S., Konter, J. (Eds.), Geophysical Monograph Series. Wiley, pp. 283–301.
  • Wu, H., *Huang, Z., Zhao, D., 2021. Deep structure beneath the southwestern flank of the Baikal rift zone and adjacent areas. Physics of the Earth and Planetary Interiors 310, 106616.
  • *Zhao, D., Wang, J., Huang, Z., Liu, X., 2021. Seismic structure and subduction dynamics of the western Japan arc. Tectonophysics 802, 228743.
  • *Zhao, H., *Wang, P., *Huang, Z., 2021. Lithospheric structures beneath the western Mongolian Plateau: Insight from S wave receiver function. Journal of Asian Earth Sciences 212, 104733.
  • Bi, Y., *Huang, Z., Wang, H., Wu, H., 2020. Upper‐Mantle Anisotropy and Dynamics Beneath Northeast Asia: Insight From SKS and Local S Splitting Analysis. Geochem. Geophys. Geosyst. 21, e2020GC009160.
  • Yang, M.H., Wang, T.* and Shi, J., 2021, Repeating infrasound from an earthquake doublet in Alaska, Geophysical Researh Letters, doi:10.1029/2021GL094632.
  • Jiang W.#, C. Xi, W. Wang,Y. Ruan (2021), Time Window Selection of Seismic Signals for Waveform Inversion Based on Deep Learning, in IEEE Transactions on Geoscience and Remote Sensing, doi: 10.1109/TGRS.2021.3076531.
  • *Gou, T., *Zhao, D., Huang, Z., Wang, L., 2020. Structural Heterogeneity in Source Zones of the 2018 Anchorage Intraslab Earthquake and the 1964 Alaska Megathrust Earthquake. Geochem. Geophys. Geosyst. 21, e2019GC008812.
  • Han, C., Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., Gou, T., Wang, H., Hao, S., Tian, M., Bi, Y., 2020. Layered crustal anisotropy and deformation in the SE Tibetan plateau revealed by Markov-Chain-Monte-Carlo inversion of receiver functions. Physics of the Earth and Planetary Interiors 306, 106522.
  • Tian, M., *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., Wang, H., Gou, T., Xu, Mijian, Han, C., Hao, S., Bi, Y., 2020. Tectonic evolution of the eastern margin of the Tibetan plateau: Insight from crustal structures using P wave receiver functions. Journal of Asian Earth Sciences 191, 104230.
  • Wang, H., *Huang, Z., 2020. Seismic tomography in the southern margin of the Sichuan Basin: Insight into the plateau-craton interaction and seismotectonics in the SE Tibetan Plateau. Journal of Asian Earth Sciences 199, 104464.
  • Wang, H., *Huang, Z., Eken, T., Keleş, D., Kaya‐Eken, T., Confal, J.M., Erman, C., Yolsal‐Çevikbilen, S., Zhao, D., Taymaz, T., 2020. Isotropic and Anisotropic P Wave Velocity Structures of the Crust and Uppermost Mantle Beneath Turkey. JGR Solid Earth 125, e2020JB019566.
  • *Wang, P., *Huang, Z., Wang, X., 2020. A Method for Estimating the Crustal Azimuthal Anisotropy and Moho Orientation Simultaneously Using Receiver Functions. J. Geophys. Res. Solid Earth 125, e2019JB018405.
  • *Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., 2020a. Lateral variation of the mantle transition zone beneath the Tibetan Plateau: Insight into thermal processes during Indian–Asian collision. Physics of the Earth and Planetary Interiors 301, 106452.
  • *Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Zhang, Y., Mi, N., Yu, D., Yuan, X., 2020b. Sharp Lateral Moho Variations Across the SE Tibetan Margin and Their Implications for Plateau Growth. J. Geophys. Res. Solid Earth 125, e2019JB018117.
  • Shi, J., Wang, T.* and Chen, L., 2020, Receiver function velocity analysis technique and its application to remove multiples, Journal of Geophysical Research-Solid Earth, doi: 10.1029/2020JB019420
  • Zhang Z.*, B. Wei, Z. Shen, N. Wu, T. Wang, B. Wang, Y. Ruan (2020), Effects of the Hutubi underground gas storage in 2016 on the surrounding seismic activities, Chinese J. Geophys. 63 (9). doi:10.6038/cjg2020.
  • H. Weng and J.P. Ampuero, Toward assessing seismic hazard from laboratory observations of rate-and-state frictional parameters. In manuscript, 2020
  • H. Weng and J.P. Ampuero, The theoretical energy release rate of in-plane elongated ruptures. In manuscript, 2020
  • H. Weng and J.P. Ampuero, Continuum of earthquake rupture speeds enabled by oblique slip. Nature Geoscience, 2020.
  • Oral E., H. Weng, and J.P. Ampuero, Does a damaged fault zone mitigate the near-field impact of supershear earthquakes? Application to the 2018 Mw 7.5 Palu earthquake. Geophysical Research Letters, 47(1), 2020.
  • Z. Zhang, Benjun Wu,T. Wang, H. Hui*. 2020. Settling of Immiscible Droplets: A Theoretical Model for the Missing Link Between Microscopic and Outcrop Observations[J]. Journal of Geophysical Research: Solid Earth, 125(6).
  • Wenjie Lei, Youyi Ruan, Ebru Bozdağ, Daniel Peter, Matthieu Lefebvre, Dimitri Komatitsch, Jeroen Tromp, Judith Hill, Norbert Podhorszki, David Pugmire (2020), Global adjoint tomography—model GLAD-M25, Geophys. J. Int., 223, 1–21.
  • Örsvuran, R., E. Bozdag, R. Modrak, W. Lei, and Y. Ruan (2020), Double-difference measurements in global full-waveform inversions, Geophys. J. Int., 220, 661 - 680.
  • Gou, T., Huang, Z., Zhao, D., Wang, L., 2019. Structural Heterogeneity and Anisotropy in the Source Zone of the 2018 Eastern Iburi Earthquake in Hokkaido, Japan. Journal of Geophysical Research: Solid Earth 124, 7052–7066. doi:10.1029/2019JB017388

  • Han, C., Huang, Z., Xu, M., Wang, L., Mi, N., Yu, D., Li, H., 2019. Focal mechanism and stress field in the northeastern Tibetan Plateau: insight into layered crustal deformations. Geophysical Journal International 218, 2066–2078. doi:10.1093/gji/ggz267

  • Huang, Z., Tilmann, F., Comte, D., Zhao, D., 2019. P Wave Azimuthal Anisotropic Tomography in Northern Chile: Insight Into Deformation in the Subduction Zone. Journal of Geophysical Research: Solid Earth 124, 742–765. doi:10.1029/2018JB016389

  • Huang, Z., Wang, L., Xu, M., Zhao, D., Mi, N., Yu, D., 2019. P and S Wave Tomography Beneath the SE Tibetan Plateau: Evidence for Lithospheric Delamination. Journal of Geophysical Research: Solid Earth 124, 10292–10308. doi:10.1029/2019JB017430

  • Huang, Z., Wang, L., Xu, M., Zhao, D., 2018. P-wave anisotropic tomography of the SE Tibetan Plateau: Evidence for the crustal and upper-mantle deformations.Journal of Geophysical Research B: Solid Earth 123, 8957-8978. doi:10.1029/2018JB016048.

  • Xu, M., Huang, H., Huang, Z., Wang, P., Wang, L., Xu, M., Mi, N., Li, H., Yu, D., Yuan, X., 2018. Insight into the subducted Indian slab and origin of the Tengchong volcano in SE Tibet from receiver function analysis. Earth and Planetary Science Letters 482, 567–579. doi:10.1016/j.epsl.2017.11.048

  • Huang, Z., Tilmann, F., Xu, M., Wang, L., Ding, Z., Mi, N., Yu, D., Li, H., 2017. Insight into NE Tibetan Plateau expansion from crustal and upper mantle anisotropy revealed by shear-wave splitting. Earth and Planetary Science Letters 478, 66–75. doi:10.1016/j.epsl.2017.08.030

  • Xu, Z., Huang, Z., Wang, L., Xu, M., Ding, Z., Wang, P., Mi, N., Yu, D., Li, H., 2016. Crustal stress field in Yunnan: implication for crust-mantle coupling. Earthquake Science 29, 105–115. doi:10.1007/s11589-016-0146-3

  • Xu, M., Huang, H., Huang, Z., Wang, L., 2016. SplitRFLab: A MATLAB GUI toolbox for receiver function analysis based on SplitLab. Earthquake Science 29, 17–26. doi:10.1007/s11589-016-0141-8

  • Huang, Z., Wang, L., Xu, M., Ding, Z., Wu, Y., Wang, P., Mi, N., Yu, D., Li, H., 2015. Teleseismic shear-wave splitting in SE Tibet: Insight into complex crust and upper-mantle deformation. Earth and Planetary Science Letters 432, 354–362. doi:10.1016/j.epsl.2015.10.027

  • Huang, Z., Zhao, D., Wang, L., 2015. P wave tomography and anisotropy beneath Southeast Asia: Insight into mantle dynamics. Journal of Geophysical Research B: Solid Earth 120, 5154–5174. doi:10.1002/2015JB012098

  • Huang, Z., Zhao, D., Liu, X., 2015. On the trade-off between seismic anisotropy and heterogeneity: Numerical simulations and application to Northeast Japan. Journal of Geophysical Research B: Solid Earth 120, 3255–3277. doi:10.1002/2014JB011784

  • Huang, Z., Wang, P., Xu, M., Wang, L., Ding, Z., Wu, Y., Xu, M., Mi, N., Yu, D., Li, H., 2015. Mantle structure and dynamics beneath SE Tibet revealed by new seismic images. Earth and Planetary Science Letters 411, 100–111. doi:10.1016/j.epsl.2014.11.040

  • Huang, Z., Wang, P., Zhao, D., Wang, L., Xu, M., 2014. Three-dimensional P wave azimuthal anisotropy in the lithosphere beneath China.Journal of Geophysical Research: Solid Earth 119, 5686–5712. doi:10.1002/2014JB010963

  • Huang, Z., Zhao, D., 2013. Mapping P-wave azimuthal anisotropy in the crust and upper mantle beneath the United States. Physics of the Earth and Planetary Interiors 225, 28–40. doi:10.1016/j.pepi.2013.10.003

  • Huang, Z., Zhao, D., Hasegawa, A., Umino, N., Park, J.-H., Kang, I.-B., 2013. Aseismic deep subduction of the Philippine Sea plate and slab window. Journal of Asian Earth Sciences 75, 82–94. doi:10.1016/j.jseaes.2013.07.002

  • Huang, Z., Zhao, D., 2013. Mechanism of the 2011 Tohoku-oki earthquake (Mw 9.0) and tsunami: Insight from seismic tomography. Journal of Asian Earth Sciences 70-71, 160–168. doi:10.1016/j.jseaes.2013.03.010

  • Huang, Z., Zhao, D., 2013. Relocating the 2011 Tohoku-oki earthquakes (M 6.0–9.0). Tectonophysics 586, 35–45. doi:10.1016/j.tecto.2012.10.019

  • Huang, Z., Zhao, D., Wang, L., 2011. Stress field in the 2008 Iwate-Miyagi earthquake (M7.2) area. Geochemistry, Geophysics, Geosystems12, Q06006. doi:10.1029/2011GC003626

  • Huang, Z., Wang, L., Zhao, D., Mi, N., Xu, M., 2011. Seismic anisotropy and mantle dynamics beneath China. Earth and Planetary Science Letters 306, 105–117. doi:10.1016/j.epsl.2011.03.038

  • Huang, Z., Zhao, D., Wang, L., 2011. Frequency-dependent shear-wave splitting and multilayer anisotropy in northeast Japan. Geophysical Research Letters 38, L08302. doi:10.1029/2011GL046804

  • Huang, Z., Zhao, D., Wang, L., 2011. Seismic heterogeneity and anisotropy of the Honshu arc from the Japan Trench to the Japan Sea. Geophysical Journal International 184, 1428–1444. doi:10.1111/j.1365-246X.2011.04934.x (2010-2011年度 Top 1%高引论文)

  • Huang, Z., Zhao, D., Wang, L., 2011. Shear wave anisotropy in the crust, mantle wedge, and subducting Pacific slab under northeast Japan. Geochemistry, Geophysics, Geosystems 12, Q01002. doi:10.1029/2010GC003343

  • Huang, Z., Wang, L., Zhao, D., Xu, M., Mi, N., Yu, D., Li, H., Li, C., 2010. Upper mantle structure and dynamics beneath Southeast China. Physics of the Earth and Planetary Interiors 182, 161–169. doi:10.1016/j.pepi.2010.07.010

  • Huang, Z., Zhao, D., Umino, N., Wang, L., Matsuzawa, T., Hasegawa, A., Yoshida, T., 2010. P-wave tomography, anisotropy and seismotectonics in the eastern margin of Japan Sea. Tectonophysics 489, 177–188. doi:10.1016/j.tecto.2010.04.014

  • Huang, Z., Xu, M., Wang, L., Mi, N., Yu, D., Li, H., 2008. Shear wave splitting in the southern margin of the Ordos Block, north China. Geophysical Research Letters 35, L19301. doi:10.1029/2008GL035188

  • Huang, Z., Wang, L., Xu, M., Liu, J., Mi, N., Liu, S., 2007. Shear wave splitting across the Ailao Shan‐Red River fault zone, SW China. Geophysical Research Letters 34, L20301. doi:10.1029/2007GL031236

  • T. Lyu, Z. Zhu,Benjun Wu*.2019. Subducting slab morphology and mantle transition zone upwelling in double-slab subduction models with inward-dipping directions,Geophysical Journal International, 218(3), 2089–2105, https://doi.org/10.1093/gji/ggz268

  • Benjun Wu, H. H. Xia, T. Wang*, and X. Shi.2018. Simulation of core phases from coda interferometry. Journal of Geophysical Research: Solid Earth, 123. https://doi.org/10.1029/2017JB015405

  • Benjun Wu*, P. Driscoll, and P. Olson. 2011. A Statistical Boundary Layer Model for the Mantle D Region. Journal of Geophysical Research-Solid Earth, 116, B12112.

  • C. P. Conrad*,Benjun Wu, E. I. Smith, T. A. Bianco, and A. Tibbetts. 2010. Shear-driven upwelling induced by lateral viscosity variations and asthenospheric shear: A mechanism for intraplate volcanism. Physics of the Earth and Planetary Interiors, 178, 162-175. [highlighted in Nature Geoscience, 3, 78, 2010].

  • Benjun Wu, C. P. Conrad*, A. Heuret, C. Lithgow-Bertelloni, and S. Lallemand. 2008. Reconciling strong slab pull and weak plate bending: The plate motion constraint on the strength of mantle slabs.Earth and Planetary Science Letters, 272,412–421.

  • Xu, Z., Wang, T.*, Xu, S.H., Wang, B.S., Feng, X.P., Shi, J. and Yang, M.H., 2019, Active source seismic identification and automatic picking of P-wave first arrival using convolutional neural network, Earthquake research in China, doi: 10.19743/j.cnki.0891-4176.201902014.

  • Lai, Y.J., Chen, L.*, Wang, T.* and Zhan, Z.W., 2019, Mantle transition zone structure beneath Northeast Asia from 2D triplicated waveform modeling: Implication for a segmented stagnant slab, J.Geophs.Res.-Sol.Ea., doi: 10.1029/2018JB016642.

  • Feng, X.P. and Wang, T.*, 2019, Influence of source factors on extracting empirical Green's functions by coda interferometry, Chinese J. Geophys. (in Chinese), doi: 10.6038/cjg2019M0518.

  • Wu, B.J., Xia, H., Wang, T.* and Shi, X.Q., 2018, Simulation of core phases from coda interferometry, J.Geophs. Res.-Sol.Ea., doi: 10.1029/2017JB015405.

  • Wang, T. and Song, X.D., 2018, Support for equatorial anisotropy of Earth’s inner-inner core from seismic interferometry at low latitudes, Physics of the Earth and Planetary Interiors, doi: 10.1016/j.pepi.2017.03.004.

  • Wang, T., Song, X.D. and Xia, H., 2015, Equatorial anisotropy in the inner part of Earth’s inner core from autocorrelation of earthquake coda, Nature Geoscience, doi:10.1038/ngeo2354.

  • Wang, T., J. Revenaugh and X. D. Song, 2014, Two-dimensional/three-dimensional waveform modeling of subducting slab and transition zone beneath Northeast Asia, J. Geophys. Res.-Sol. Ea., 119(6), 4766-4786, doi:Doi 10.1002/2014jb011058.

  • Wang, T. and Chen, L., 2009. Distinct velocity variations around the base of the upper mantle beneath northeast Asia, Physics of the Earth and Planetary Interiors, 172(3-4): 241-256.

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