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　　趙亮，男，博士，1975年生，中國科學(xué)院地質(zhì)與地球物理研究所研究員、中國科學(xué)院大學(xué)崗位教授。2016年獲國家杰出青年科學(xué)基金，2017年入選國家人才計劃領(lǐng)軍人才。獲中國地球物理學(xué)會(huì )“傅承義青年科技獎”、中國科學(xué)院“盧嘉錫青年人才獎”、“中國科學(xué)院青年科學(xué)家國際合作伙伴獎”，作為主要完成者之一獲得“中國科學(xué)院杰出科技成就獎”，作為負責人入選科技部創(chuàng )新人才推進(jìn)計劃“重點(diǎn)領(lǐng)域創(chuàng )新團隊”。擔任《地質(zhì)科學(xué)》編委，“國際巖石圈計劃中國全國委員會(huì )”秘書(shū)長(cháng)。主要從事深部結構地震學(xué)研究，聚焦“大陸演化動(dòng)力學(xué)”為科學(xué)目標，選取其中兩個(gè)構造端元—克拉通及造山帶，實(shí)施深部結構探測和成像研究，取得了有影響力的創(chuàng )新成果：發(fā)展了多種針對復雜結構的地震波波形模擬新方法，顯著(zhù)提高對復雜構造體的成像能力；開(kāi)展華北克拉通及鄰區上地幔結構和變形狀態(tài)的觀(guān)測和研究，研究了華北克拉通破壞過(guò)程中大陸巖石圈-軟流圈-俯沖板塊的相互作用，獲得判斷華北克拉通破壞的動(dòng)力作用背景的深部結構證據；組織國際合作研究，在地質(zhì)學(xué)經(jīng)典地區阿爾卑斯造山帶實(shí)施了第一條大規模地震臺陣觀(guān)測，首次獲得阿爾卑斯地區大陸地殼深俯沖帶的結構證據，解決了大陸俯沖位置和規模的難題。

教育

• 1996年獲江漢石油學(xué)院應用地球物理專(zhuān)業(yè)學(xué)士學(xué)位
• 1999年獲江漢石油學(xué)院地球探測與信息技術(shù)專(zhuān)業(yè)碩士學(xué)位
• 2002年獲中國石油大學(xué)（北京）地球探測與信息技術(shù)專(zhuān)業(yè)博士學(xué)位

工作經(jīng)歷

• 2010-現在     中國科學(xué)院地質(zhì)與地球物理研究所研究員
• 2002-2010     中國科學(xué)院地質(zhì)與地球物理研究所助理研究員、副研究員
• 2009.1-2009.8 美國加州大學(xué)伯克利分校訪(fǎng)問(wèn)學(xué)者
• 2008.12       法國奧爾良大學(xué)訪(fǎng)問(wèn)教授

• 2007年，中國地球物理學(xué)會(huì )“傅承義青年科技獎”
• 2008年，中國科學(xué)院“王寬誠教育獎學(xué)金”
• 2009年，中國科學(xué)院“盧嘉錫青年人才獎”
• 2014年，中國科學(xué)院“杰出科技成就獎”（華北克拉通破壞集體，排名14）
• 2015年，中國科學(xué)院“青年科學(xué)家國際合作伙伴獎”

1. Stefano, S., M.G. Malusà, E. Eva, S. Guillot, A. Paul, S. Schwartz, L. Zhao, C. Aubert, T. Dumont, S. Pondrelli, S. Salimbeni, Q. Wang, X. Xu, T. Zheng, R. Zhu (2018). Mantle wedge exhumation beneath the Dora-Maira (U)HP dome unravelled by local earthquake tomography (Western Alps), Lithos, 296–299: 623-636.
2. Zhao, L., X. Xu, M. G. Malusà (2017). Seismic probing of continental subduction zones. Journal of Asian Earth Sciences. 145: 37-45.
3. Yang, J., L. Zhao^*, B.J.P., Kaus^*, G. Lu, K. Wang, R. Zhu (2017). Slab-triggered wet upwellings produce large volumes of melt: Insights into the destruction of the North China Craton, Tectonophysics, in press, doi: 10.1016/j.tecto.2017.04.009.
4. Beller, S., V. Monteiller, S. Operto, G. Nolet, A. Paul, L. Zhao (2017). Lithospheric architecture of the South-Western Alps revealed by multi-parameter teleseismic full-waveform inversion, Geophy. J. Int., in press, doi: 10.1093/gji/ggx216.
5. Lyu, C., H.A. Pedersen, A. Paul, L. Zhao^*, S. Solarino (2017). Shear wave velocities in the upper mantle of the Western Alps: new constraints using array analysis of seismic surface waves, Geophy. J. Int., 210, 321-331.
6. Malusà, Marco G., L. Zhao, E. Eva, S. Solarino, A. Paul, S. Guillot, S. Schwartz, T. Dumont, C. Aubert, S. Salimbeni, S. Pondrelli, Q. Wang, R. Zhu (2017). Earthquakes in the western alpine mantle wedge, Gondwana Research, 44: 89-95.
7. Zhao, L., A. Paul, M. G. Malusà, X. Xu, T. Zheng, S. Solarino, S. Guillot, S. Schwartz, T. Dumont, S. Salimbeni, C. Aubert, S. Pondrelli, Q.Wang, R. Zhu (2016). Continuity of the Alpine slab unraveled by high-resolution P-wave tomography, J. Geophys. Res., 121, doi: 10.1002/2016JB013310.
8. Zhang, Y.F., Y.B. Wang, L. Zhao, Z.M. Jin (2016), On velocity anomalies beneath southeastern China: An investigation combining mineral physics studies and seismic tomography observations, 31, 200-217, Gondwana Research, Doi:10.1016/j.gr.2015.01.008
9. Wang K^*, E. Burov, C. Gumiaux, Y. Chen, G. Lu, L. Mezri, L. Zhao^* (2015). Formation of metamorphic core complexes in non-over-thickened continental crust: A case study of Liaodong Peninsula (East Asia), Lithos, 238, 86-100, doi:10.1016/j.lithos.2015.09.023.
10. Zheng, T.Y., J.H. Yang, Y.M. He, L. Zhao (2015). Seismological constraints on the crustal structures generated by continental rejuvenation in the northeastern China. Scientific reports, doi:10.1038/srep14995, in press.
11. Zhao, L., A. Paul, S. Guillot, S. Solarino, M.G. Malusà, T. Zheng, C. Aubert, S. Salimbeni, T. Dumont, S. Schwartz, R. Zhu, Q. Wang (2015). First Seismic Evidence for Continental Subduction beneath the Western Alps, Geology, 43, 815-818. doi: 10.1130/G36833.1.
12. Zhao, L., M. Xue (2015), An observation related to directional attenuation of SKS waves propagating in anisotropic media, Geophys. J. Int., 201, 276-290, doi:10.1093/gji/ggv019.
13. He, Y.M., L.X. Wen, Y. Capdeville, L. Zhao (2015), Seismic evidence for an Iceland thermo-chemical plume in the Earth’s lowermost mantle, Earth Planet. Sci. Lett., 417, 19-27, doi: 10.1016/j.epsl.2015.02.028.
14. Lu, G., B. Kaus, L. Zhao, T.Y. Zheng (2015), Self-consistent subduction initiation induced by mantle flow, Terra Nova, 27:130-138, doi:10.1111/ter.12140.
15. Zhao, L., M. Zhao, G. Lu (2014), Upper mantle seismic anisotropy beneath a convergent boundary: SKS waveform modeling in central Tibet, Science China: Earth Science, 57, 759-776, doi: 10.1007/s11430-014-4826-3.
16. Lu, G., L. Zhao, T. Zheng, B.P. Kaus (2014). Strong intracontinental lithospheric deformation in South China: Implications from seismic observations and geodynamic modeling, J. Asia. Earth. Sci., 87, 141-156, doi: 10.1016/j.jseaes.2013.08.020.
17. Zheng, T.Y., L. Zhao, Y.M. He, R.X. Zhu (2014). Seismic imaging of crustal reworking and lithospheric modification in eastern China, Geophys. J. Int., 196, 656-670. doi:10.1093/gji/ggt420.
18. Zhao, L., T.Y. Zheng, G. Lu (2013). Distinct upper mantle deformation of cratons in response to subduction: constraints from SKS wave splitting measurements in eastern China, Gondwana Research, 23, 39-53, doi: 10.1016/j.gr.2012.04.007.
19. Zhao, M., L. Zhao, Y. Capdeville (2013). A coupled method of spectral element and normal mode: an powerful tool of modeling the seismic waves propagation in anisotropic D’’ region. Chinese J. Geophys. (in Chinese), 56, 1216-1225, doi: 10.6038/cjg20130416.
20. 趙明，趙亮，Y. Capdeville (2013).基于譜元－簡(jiǎn)正振型耦合方法的核幔邊界D''區地震波波形模擬方法研究，地球物理學(xué)報，56,1216－1225.
21. Zhao, L., R. M. Allen, T. Zheng, and R. Zhu (2012). High-resolution body-wave tomography models of the upper mantle beneath eastern China and the adjacent areas, Geochem. Geophys. Geosyst., 13, Q06007, doi: 10.1029/2012GC004119.
22. Zheng, T., R. Zhu, L. Zhao, and Y. Ai (2012), Intralithospheric mantle structures recorded continental subduction, J. Geophys. Res., 117, B03308, doi: 10.1029/2011JB008873.
23. Zhao, L., T.Y. Zheng, G. Lu, Y.S. Ai (2011). No direct correlation of mantle flow beneath the North China Craton to the India-Eurasia collision: constraints from new SKS wave splitting measurements, Geophys. J. Int., 187, 1027-1037, doi: 10.1111/j.1365-246X.2011.05201.x.
24. Lu, G., B. J.P. Kaus, L. Zhao (2011). Thermal localization as a potential mechanism to rift cratons, Phys. Earth Planet. Inter., 186, 125-137, doi:10.1016/j.pepi.2011.04.006.
25. Zhao, L., and M. Xue (2010). Mantle flow pattern and geodynamic cause of the North China Craton reactivation: Evidence from seismic anisotropy, Geochem. Geophys. Geosyst., 11, Q07010, doi:10.1029/2010GC003068.
26. Zhao, L., R.M. Allen, T.Y. Zheng, S. Hung (2009). Reactivation of an Archean craton: Constraints from P- and S-wave tomography in North China, Geophy. Res. Lett., 36, L17306, doi:10.1029/2009GL039781.
27. Zheng, T.Y., L. Zhao, R.X. Zhu (2009). New evidence from seismic imaging for subduction during assembly of the North China Craton, Geology, 37, 395-398.
28. Zhao, L., T.Y. Zheng (2009). Upper mantle deformation beneath the North China Craton and its implications for craton evolution, Chinese Journal of Geology, 44, 865-876 (In Chinese).
29. Zheng, T.Y., L. Zhao, W.W. Xu, R.X. Zhu (2008). Insight into modification of North China Craton from seismological study in the Shandong Province, Geophy. Res. Lett., 35, L22305, doi:10.1029/2008GL035661
30. Zhao, L., L.X. Wen, L. Chen, T.Y. Zheng (2008). A two-dimensional hybrid method for modeling seismic wave propagation in anisotropic media, J. Geophys. Res., 113, B12307, doi:10.1029/2008JB005733.
31. Zhao, L., T.Y. Zheng, G. Lü (2008). Insight into craton evolution: constraints from shear wave splitting in the North China Craton, Phys. Earth Planet. Inter., 168, 153-162.
32. Zheng, T.Y., L. Zhao, R.X. Zhu (2008). Insight into the geodynamics of cratonic reactivation from seismic analysis of the crust-mantle boundary, Geophy. Res. Lett., 35, L08303, doi:10.1029/2008GL033439.
33. Chen, L., T. Wang, L. Zhao, T.Y. Zheng (2008), Distinct lateral variation of lithospheric thickness in the Northeastern North China Craton, Earth Planet. Sci. Lett., 267, 56-68.
34. Zhao, L., T.Y. Zheng, L. Chen, Q.S. Tang (2007). Shear wave splitting in eastern China, implications for upper mantle deformation beneath continental margin, Phys. Earth Planet. Inter., 162,73-84.
35. Zhao, L., T.Y. Zheng (2007). Complex upper mantle deformation beneath the North China Craton: implications for lithospheric thinning, Geophy. J. Int., 170, 1095-1099.
36. Zheng, T.Y., L. Chen, L. Zhao, R.X. Zhu(2007). Crustal structure across the Yanshan belt at the northern margin of the North China Craton, Phys. Earth Planet. Inter., 161, 36-49.
37. Zheng, T.Y., L. Chen, L. Zhao, W.W. Xu, R.X. Zhu (2006). Crust-mantle structure difference across the gravity gradient zone in North China Craton: Seismic image of the thinned continental crust, Phys. Earth Planet. Inter. , 159, 43-58.
38. Zhao, L., T.Y. Zheng (2005). Using shear wave splitting measurements to investigate the upper mantle anisotropy beneath the North Craton, Geophys. Res. Lett., 32, L10309, doi:10.1029/2005GL022585.
39. Zhao, L., T.Y. Zheng (2005). Seismic structure of the Bohai Bay Basin, northern China, Implications for basin evolution, Earth Planet. Sci. Lett., 231, 9-22.
40. Zheng, T.Y., L. Zhao, L. Chen (2005). A detailed Receiver Function Image of the Sedimentary Structure in the Bohai Bay Basin, Phys. Earth Planet. Inter., 152, 129-143.
41. Zhao, L., T.Y. Zheng, W. Xu (2004). Modeling the Jiyang depression, Northern China, using a wave-field extrapolation FD method and waveform inversion, Bull. Seism. Soc. Am., 94, 988-1001.
42. Zhao, L., X.L. Wu (2003). Calculation and analysis of sensitivity field for multiphase flow electromagnetic tomography (EMT) in well logging, Chinese Journal of Geophysics, 46, 1251-1258.
43. 趙亮, 吳錫令(2003). 多相流動(dòng)電磁波成像測井測量敏感場(chǎng)計算, 地球物理學(xué)報, 46,870－874.