罗纲 男 教授 博导

Gang Luo
Professor of Geophysics
School of Geodesy and Geomatics
Wuhan University
Room: Building 2, Room 314
Email: [email protected]
Address: 129 Luoyu Road, Wuhan 430079, P. R. China

电子邮件：[email protected]

通信地址：武汉市洪山区珞喻路129号武汉大学测绘学院教2-314室

邮政编码：430079

美国密苏里大学 计算地球动力学 博士 (University of Missouri, PhD)

北京大学 固体地球物理学 硕士 (Peking University, MS)

北京大学 地球动力学 学士 (Peking University, BS)

武汉大学测绘学院教授，2019.5-今

中国科学院计算地球动力学重点实验室副主任，2016.7-2019.4

中国科学院计算地球动力学重点实验室教授，2014.6-2019.4

中国科学院大学地球与行星科学学院教授，2014.6-2019.4

美国德克萨斯大学奥斯丁分校地球科学学院经济地质局副研究员，2011.9-2014.5
（Bureau of Economic Geology, Jackson School of Geosciences, University of Texas-Austin）

美国德克萨斯大学奥斯丁分校地球科学学院经济地质局博士后，2009.8-2011.8
（Bureau of Economic Geology, Jackson School of Geosciences, University of Texas-Austin）

中国力学学会第十届地球动力学专业委员会主任

中国力学学会第十一届地球动力学专业委员会副主任

中国科学院第四届青联委员

中国地震学会地震地质专业委员会委员

中国地震学会第十届青年工作委员会委员

中国地震学会地壳应力与地震专业委员会委员

中国石油学会第十届石油物探专业委员会委员

Author Achievements Award, Bureau of Economic Geology, University of Texas-Austin, 2009, 2011, 2013

G. Ellsworth Huggins fellowship, University of Missouri, 2003-2008

Dan McMillen-Stephan Eisner scholarship, University of Missouri, 2007

北京地区高等学校优秀毕业生, 2000

北京大学优秀毕业生, 2000

招生专业与方向：固体地球物理学，地球动力学，大地构造，构造地质，地震地质，工程地质，岩石与岩土力学，数值模拟

使用数值模拟的方法来理解地表/浅表面与地球动力学过程，及地球内部的物理过程。例如：地表变形及其机制、注水蓄水抽水与地表变形及地震活动性、断层与地震、人工合成地震目录、俯冲与造山等等。

使用数值模拟的方法来理解盐体系统的变形、应力和孔隙流体压力，以及钻井稳定性，从而理解沉积盆地演化的基本物理过程，为盐体周围的石油勘探、钻井开发等等提供支持。

成矿过程、成矿动力学的数值模拟。

欢迎感兴趣的同学邮件联系我。欢迎具有固体地球物理学、地球动力学、地质学、大地构造、构造地质学、水文地质模拟、岩土力学、岩石力学、工程地质等等背景的同学报考硕士及博士研究生。欢迎有相关研究背景的博士毕业生，联系我关于博士后研究的工作机会。博士后待遇优厚；校重点资助博士后待遇达45万元/年。

我的研究主要集中在理论和应用计算地球动力学两个方面。a) 理论计算地球动力学，主要利用大规模并行有限元数值模拟，整合地震、地质，地形变观测数据来模拟地壳岩石圈的地球动力学过程（构造，地震和变形）；b) 应用计算地球动力学，主要整合地震、地质、钻井数据使用有限元数值模拟调查盆地系统的变形，应力和孔隙流体压力及其地质演化，以及钻井的稳定性分析（石油构造和盆地模拟）；c) 应用计算地球动力学，主要整合地质、钻井、矿产资源数据，使用数值模拟的方法研究成矿过程及成矿动力学（成矿动力学数值模拟）。具体有以下几方面：

地表/浅表面的运动、变形及其机制

地壳-岩石圈的短期、地震循环过程和地质长期的应力应变演化

地壳-岩石圈的流变结构和地球动力学过程

数值模拟断层系统的地震活动性（人工合成地震目录）、断层相互影响和地震驱动

数值模拟地震断层的破裂过程

数值模拟盐体的地质运动与演化

盐体系统的变形、应力、孔隙流体压力和流体流动

地质力学、岩土力学与盐体系统的钻井稳定性分析

孔隙流体压力-岩石应力应变-温度耦合的数值模拟

成矿动力学数值模拟

Gang Luo* , Xibo Jin, 2023, How does lithospheric viscosity control the temporal patterns of seismicity during an earthquake cycle? Tectonophysics, 847, 229686, https://doi.org/10.1016/j.tecto.2022.229686.

Xibo Jin, Gang Luo* , Wentao Zhao, 2023, Accuracy evaluation on five nonlinear methods for fault parameter inversion of different-type fault earthquakes, Frontiers in Earth Science, doi: 10.3389/feart.2022.1094623.

Linxuan Li, Gang Luo* , 2022, What causes the spatiotemporal patterns of seismicity in the Three Gorges Reservoir area, central China? Earth and Planetary Science Letters, 592, 117618, p.1-10, https://doi.org/10.1016/j.epsl.2022.117618.

Li Yin, Gang Luo* , 2022, Does middle-lower crustal flow exist in the eastern Tibetan Plateau? Insights from finite-element modeling and geodetic observations, Tectonophysics, 832, 229363, https://doi.org/10.1016/j.tecto.2022.229363.

常成， 罗纲 * ，2022，斑岩矿床侵入体顶部破裂系统形成的力学机制：多场耦合数值模拟的启示，地球物理学报，65（8）：3006-3024，doi:10.6038/cjg2022P0375.

高雅婧，孙云强*， 罗纲* ，2022，1999年集集地震前后台湾地区地震b值及应力场时空演化特征，地球物理学报，65（6）：2137-2152，doi:10.6038/cjg2022P0106.

高雅婧， 罗纲 * ，王少坡，周元泽，2022，青藏高原东南部地震b值时空演化及其对区域应力场特征的启示，中国科学院大学学报，39（5）：627-638.

赵文涛， 罗纲* ，靳锡波，孙云强，2022, 人工地震目录的评估及其在青藏高原东北缘的应用，地球物理学报，65（1）: 67-78，doi:10.6038/cjg2022P0520.

Li Yin, Gang Luo* , 2021, Fault interaction and active crustal extrusion in the southeastern Tibetan Plateau: Insights from geodynamic modeling, Journal of Asian Earth Sciences, 218, https://doi.org/10.1016/j.jseaes.2021.104866.

Cheng Chang, Gang Luo* , 2021, The Coupled THMC finite-element modeling of hydrothermal systems: Insights into the Jiama porphyry metallogenic system, Ore Geology Reviews, 138, https://doi.org/10.1016/j.oregeorev.2021.104404.

孙云强， 罗纲 * ，黄禄渊，2021，基于分裂节点法的地震同震和震后形变数值模拟及其在汶川大地震中的应用，地质力学学报，27(2):241-253, DOI:10.12090/j.issn.1006-6616.2021.27.02.023.

Yunqiang Sun, Gang Luo* , Caibo Hu, and Yaolin Shi, 2020, Preliminary analysis of earthquake probability based on the synthetic seismic catalog: Science China Earth Sciences, v. 63, https://doi.org/10.1007/s11430-11019-19582-11439.

王少坡， 罗纲* ，史亚男，解孟雨，魏东平，2020，鄂霍次克微板块东部俯冲带区域地震b值及应力场特征，地球物理学报，63(4)，doi:10.6038/cjg2020N0262.

Yuxuan Chen, Mian Liu, Gang Luo , 2020, Complex temporal patterns of large earthquakes: Devil’s Staircases, Bulletin of the Seismological Society of America, doi: 10.1785/0120190148.

Yunqiang Sun, Gang Luo* , Yaxing Li, Mingwen Wang, Xiaofeng Jia, Cheng Chang, Rui Zhang, 2020, Near-salt stress-induced seismic velocity changes and seismic anisotropy, and their impacts on salt imaging: A case study in Kuqa depression, Tarim Basin, China, Interpretation, volume 8, issue 3, https://doi.org/10.1190/INT-2019-0167.1.

Cheng Chang, Gang Luo* , Mingwen Wang, Yunqiang Sun, 2020, Near-salt perturbations of stresses and pore fluid pressures, and their impacts on wellbore stability in Kuqa depression of Tarim Basin, China, Interpretation, volume 8, issue 2, https://doi.org/10.1190/int-2019-0168.1.

Yajing Gao, Gang Luo* , Yunqiang Sun, 2020, Seismicity, Fault Slip Rates, and Fault Interactions in a Fault System, Journal of Geophysical Research: Solid Earth, 125, e2019JB017379. https://doi.org/10.1029/2019JB017379.

王明文， 罗纲* ，孙云强，常成，2020,数值模拟盐体几何起伏导致的应力扰动，石油勘探与开发，47（2），DOI: 10.11698/PED.2020.02.00.

Xianying Wang, Cong Guo, David A. Yuen, Gang Luo* , 2020, GeoVReality: A computational interactive virtual reality visualization framework and workflow for geophysical research, Physics of the Earth and Planetary Interiors, https://doi.org/10.1016/j.pepi.2019.106312.

Yuqiang Li, Dun Wang, Shenghui Xu, Lihua Fang, Yifang Cheng, Gang Luo , Bing Yan, Enescu Bogdan, Jim Mori, 2019, Thrust and Conjugate Strike‐Slip Faults in the 17 June 2018 MJMA 6.1 (⁠Mw 5.5) Osaka, Japan, Earthquake Sequence, Seismological Research Letters, v. 90, no. 6, p. 2132-2141, https://doi.org/10.1785/0220190122.

Mingwen Wang, Yunqiang Sun, Gang Luo* , and Rui Zhang, 2019, Stress perturbations around the deep salt structure of Kuqa depression in the Tarim Basin, Interpretation, Vol. 7, Iss. 3, https://doi.org/10.1190/INT-2018-0177.1.

Yaxing Li, Yunqiang Sun, Xiaofeng Jia* and Gang Luo* , 2019, How do stress perturbations near salt bodies induce difficulty in salt imaging? Insights from a geomechanical model and salt imaging, Petroleum Geoscience, V.25. p. 273-281, https://doi.org/10.1144/petgeo2018-092.

Li Yin, Gang Luo* , 2019, The spatio-temporal strain partitioning 1 across the Longmenshan Fault Zone during seismic cycles: implications for deformation mechanisms and seismicity, Journal of Asian Earth Sciences , 173, p.189-203, https://doi.org/10.1016/j.jseaes.2019.01.022.

Fengqi Tan, Changfu Xu, Yuliang Zhang, Gang Luo , Yukun Chen, and Wentao Liu, 2019, Differences of microscopic seepage mechanisms of water flooding and polymer flooding and prediction models of final oil recovery for conglomerate reservoir, Oil & Gas Science and Technology, 74, 13, p.1-15, https://doi.org/10.2516/ogst/2018086.

孙云强， 罗纲* ，尹力，石耀霖，2019，青藏高原东北缘断层系统的大地震迁移概率及断层滑动速度的分段特征. 地球物理学报，62(5)：1663-1679，doi:10.6038/cjg2019M0190.

Gang Luo* , Mian Liu, 2018, Stressing rates and seismicity on the major faults in eastern Tibetan Plateau, Journal of Geophysical Research-Solid Earth, 123, p. 10968-10986, https://doi.org/10.1029/2018JB015532.

尹力， 罗纲 * ，孙云强, 2018, 青藏高原东缘中下地壳流与地壳变形. 地球物理学报，61(10)：3933-3950，doi:10.6038/cjg2018L0694.

孙云强， 罗纲 * , 2018, 青藏高原东北缘地震时空迁移的有限元数值模拟．地球物理学报，61(6)：2246-2264，doi:10.6038/cjg2018L401.

尹力， 罗纲 * , 2018, 有限元数值模拟龙门山断裂带地震循环的地壳变形演化．地球物理学报，61(4):1238-1257,doi10.6038/cjg2018L0248.

石耀霖，孙云强， 罗纲 ，董培育，张怀，2018，关于我国地震数值预报路线图的设想-汶川地震十周年反思，科学通报，63（19），1865-1881, doi: 10.1360/N972018-00335.

Gang Luo* , Michael R. Hudec, Peter B. Flemings, and Maria A. Nikolinakou, 2017, Deformation, stress, and pore pressure in an evolving suprasalt basin, Journal of Geophysical Research-Solid Earth, v. 122, p.5663–5690.

Fengqi Tan, Gang Luo , Duojun Wang, Yangkang Chen, 2017, Evaluation of complex petroleum reservoirs based on data mining methods, Computational Geosciences, v.21, p. 151–165.

Tim P. Dooley, Michael R. Hudec, Dan Carruthers, Martin P. A. Jackson, and G. Luo , 2017, The effects of base-salt relief on salt flow and suprasalt deformation patterns — Part 1: Flow across simple steps in the base of salt, Interpretation, Vol. 5, No. 1 (February 2017), p. SD1–SD23.

黄禄渊，张贝，程惠红， 罗纲 ，瞿武林，张怀，石耀霖. 2017, 2015年智利Illapel Mw8.3地震的同震效应及其对南美大陆地震危险性的影响. 地球物理学报. 60(1): 163-173.

Huai Zhang, Huihong Cheng, Yimin Jin, Gang Luo , Jingjing Wang, David A. Yuen, and Yaolin Shi, 2016, The implications of regional microseismic activities: A lesson from 2008 Ms. 8.0 Wenchuan earthquake, Physics of the Earth and Planetary Interiors, v.261, p.107–117.

Luo G.*, Flemings P. B., Hudec, M. R., and Nikolinakou, M.A., 2015, The role of pore fluid overpressure in the substrates of advancing salt sheets, ice glaciers, and critical-state wedges, Journal of Geophysical Research-Solid Earth, v. 120, p. 87–105, doi:10.1002/2014JB011326.

Liu, M, Luo, G. and Wang, H., 2014, The 2013 Lushan Earthquake in China Tests Hazard Assessments, Seismological Research Letters, v. 85, no. 1, p. 40-43, doi: 10.1785/0220130117.

Liu, M., Luo, G., Wang, H., and Stein, S, 2014, Long aftershock sequences in North China and Central US: Implications for hazard assessment in mid-continents, Earthquake Science, v. 27, p. 27-35, doi: 10.1007/s11589-014-0066-z.

Nikolinakou, M.A., Merrell, M.P., Luo, G., Flemings P. B. and Hudec, M. R., 2013, Geomechanical modeling of the Mad Dog salt, Gulf of Mexico, American Rock Mechanics Association, ARMA 13-234, p.1-7.

Luo, G.* and Liu, M., 2012, Multi–timescale mechanical coupling between the San Jacinto fault and the San Andreas fault, southern California, Lithosphere, v. 4, p. 221-229, doi:10.1130/L180.1.

Luo, G.*, Nikolinakou, M., Flemings, P., and Hudec, M., 2012, Geomechanical modeling of stresses adjacent to salt bodies: 1. Uncoupled models, AAPG Bulletin, p. 43-64, doi:10.1306/04111110144.

Nikolinakou, M., Luo, G., Hudec, M., and Flemings, P., 2012, Geomechanical modeling of stresses adjacent to salt bodies: 2. Poro-elasto-plasticity and coupled overpressures, AAPG Bulletin, V.96, p. 65-85, doi:10.1306/04111110143.

Luo, G.*, Nikolinakou, M., Flemings, P., and Hudec, M., 2012, Near-salt stress and wellbore stability: A finite-element study and its application, American Rock Mechanics Association, ARMA 12-309, p.1-9.

Nikolinakou, M., Luo, G., Hudec, M., and Flemings, P., 2011, Geomechanical modeling of stresses and pore pressures in mudstones adjacent to salt bodies, American Rock Mechanics Association, 2011, ARMA 11-271.

Liu, M., Yang, Y., Li, Q., Luo, G., Zhang, H., 2011, Parallel finite element modeling of multi-timescale faulting and lithospheric deformation in the western US, in Geoinformatics: Cyberinfrastructure for the Solid Earth Sciences, Keller, R. and Baru, C. (ed.), Cambridge University Press.

Luo G.* and Liu, M., 2010, Stress evolution and fault interactions before and after the 2008 great Wenchuan earthquake, Tectonophysics, VOL. 491, p. 127-140, doi:10.1016/j.tecto.2009.12.019.

Luo G.* and Liu, M., 2009, How does trench coupling lead to mountain building in the subandes? A viscoelastoplastic finite element model, Journal of Geophysical Research-Solid Earth, v. 114, B03409, doi:10.1029/2008JB005861.

Luo G.* and Liu, M., 2009, Why short-term crustal shortening leads to mountain building in the Andes, but not in the Cascadia?: Geophysical Research Letters, v. 36, L08301, doi:10.1029/2009GL037347.

Ge, S., Liu, M., Lu, N., Godt, J., and Luo, G., 2009, Did the Zipingpu Reservoir trigger the 2008 Wenchuan earthquake?, Geophysical Research Letters, VOL. 36, L20315, doi:10.1029/2009GL040349.

Cai, Y., Luo, G., Liu, J., Li, Q., Zhang, B. and Chen., H.. A numerical method for modeling dynamic process of discontinuous rock foundation-arch dam system, Rock and Soil Mechanics (in Chinese), Vol.25 Supp.2 (2004): 361-365.