温扬茂，博士，副教授，博士生导师，珞珈青年****，武汉大学测绘学院
研究方向：高精度InSAR数据处理、大地测量反演与地球动力学
湖北省武汉市珞喻路129 号，430079
Tel: (027)**
E-mail: ymwen@sgg.whu.edu.cn
教育经历
1999年9月 – 2003年6月，武汉大学测绘学院本科学习
2003年9月 – 2009年6月，武汉大学测绘学院硕博连读
2008年10月 – 2009年3月，英国格拉斯哥大学访问学生
工作经历
2012年12月至今，武汉大学测绘学院，副教授
2013年6月 – 2014年6月，英国格拉斯哥大学/纽卡斯尔大学，访问****
2009 年7月 – 2012年11月，武汉大学测绘学院，讲师
2009 年9月 – 10月，德国GFZ 地学研究中心，进修
代表性论著
2021年
Wen Y.*, Z. Xiao, P. He, J. Zang, Y. Liu and C. Xu (2021), Source characteristics of the 2020 Mw 7.4 Oaxaca, Mexico, earthquake estimated from GPS, InSAR, and teleseismic waveforms, Seismolo. Res. Lett., 92(3): 1900-1912, doi:10.1785/
He P., Y. Wen*, S. Li, K. Ding, Z. Li, and C. Xu (2021), Present-day orogenic processes in the western Kalpin nappe explored by interseismic GNSS measurements and coseismic InSAR observations of the 2020 Mw 6.1 Kalpin event, Geophys. J. Int., 226(2): 928-940,? doi:10.1093/gji/ggab097
Wang J., C. Xu, J. T. Freymueller, Y. Wen, Z. Xiao (2021), AutoCoulomb: An automated configurable program to calculate Coulomb stress changes on receiver faults with any orientation and its application to the 2020 Mw 7.8 Simeonof island, Alaska, earthquake, Seismolo. Res. Lett., doi: 10.1785/
Zhang L., J. Hu, X. Ding, Y. Wen and H. Liang (2021), Estimation of coseismic deformation with multitemporal radar interferometry, IEEE Geosci. Remote S., doi: 10.1109/LGRS.2020.**
李志才, 丁开华, 张鹏, 温扬茂, 赵利江, 陈建峰 (2021), GNSS观测的2021年青海玛多地震 (Mw 7.4) 同震形变及其滑动分布, 武汉大学学报● 信息科学版, doi: 10.13203/j.whugis**
2020年
[109] He P., Y. Wen*, Y. Chen, C. Xu, K. Ding (2020), Coseismic rupture geometry and slip rupture process during the 2018 Mw 7.1 Anchorage, south central Alaska earthquake: intraplate normal faulting by slab tear constrained by geodetic and teleseismic data, Earth Space Sci., 7(1), doi: 10.1029/2019EA000924
[108] Li, Z., Y. Wen, P. Zhang, Y. Liu, Y. Zhang (2020), Joint inversion of GPS, leveling, and InSAR data for the 2013 Lushan (China) earthquake and its seismic hazard implications, Remote Sens., 12(4), doi:10.3390/rs**
[107] He, P., Y. Wen, K. Ding, C. Xu (2020), Normal Faulting in the 2020 Mw 6.2 Yutian Event: Implications for Ongoing E–W Thinning in Northern Tibet, Remote Sens., 12(18), 3012, doi: 10.3390/rs**
[106] Xu G., C. Xu, Y. Wen, W. Xiong, S. Valkaniotis (2020), The complexity of the 2018 Kaktovik earthquake sequence in the northeast of the Brooks Range, Alaska, Geophys. Res. Lett., 47(18), doi: 10.1029/2020GL088012
[105] Yang J., C. Xu, Y. Wen (2020), The 2019 Mw 5.9 Torkaman chay earthquake in Bozgush mountain, NW Iran: A buried strike-slip event related to the sinistral Shalgun-Yelimsi fault revealed by InSAR, J. Geodyn., doi: 10.1016/j.jog.2020.101798
[104] Liu C., T. Lay, X. Xiong, Y. Wen (2020), Rupture of the 2020 MW 7.8 earthquake in the Shumagin gap inferred from seismic and geodetic observations, Geophys. Res. Lett., 47(22), doi: 10.1029/2020GL090806
[103] Xiong L., C. Xu, Y. Liu, Y. Wen, J. Fang (2020), 3D displacement field of Wenchuan earthquake based on iterative least squares for virtual observation and GPS/InSAR observations, Remote Sens., 12(6), 977, doi:10.3390/rs**
[102] Wang S., C. Xu, Z. Li, Y. Wen, C. Song (2020), The 2018 Mw 7.5 Papua New Guinea earthquake: A possible complex multiple faults failure event with deep‐seated reverse faulting, Earth Space Sci., 7(3), doi:10.1029/2019EA000966
[101] Fang J., C. Xu, J. Zang, Y. Wen, C. Song, Y. Li (2020), Application of high-rate GPS for earthquake rapid response and modeling: A case in the 2019 Mw 7.1 Ridgecrest earthquake, Geophys. J. Int., 222(3): 1923–1935, doi: 10.1093/gji/ggaa272
[100] Guo R., Y. Zheng, C. An, J. Xu, Z. Jiang, L. Zhang, M. S. Riaz, J. Xie, K. Dai, Y. Wen (2020), The 2018 Mw 7.9 offshore Kodiak, Alaska, earthquake: an unusual outer rise strike-slip earthquake, J. Geophys. Res., doi: 10.1029/2019JB019267
[99] 袁霜, 何平, 温扬茂, 许才军 (2020), 综合InSAR和应变张量估计2016年Mw 7.0熊本地震同震三维形变场, 地球物理学报, 63(4): 1340-1356, doi: 10.6038/cjg2020N0308
[98] 刘洋, 许才军, 温扬茂, 李志才 (2020), 杂多Mw 5.9级地震断层滑动的InSAR反演及边界元分析, 武汉大学学报 ● 信息科学版, 45(11): 1678-1686, doi:?10.13203/j.whugis**
2019年
[97] Wen Y., Z. Guo, C. Xu, G. Xu, C. Song (2019), Coseismic and postseismic deformation associated with the 2018 Mw 7.9 Kodiak, Alaska, earthquake from low-Rate and high-Rate GPS observations, Bull. Seismolo. Soc. Am., 109(3): 908-918, doi:10.1785/
[96] Guo Z., Y. Wen*, G. Xu, S. Wang, X. Wang, Y. Liu, C. Xu (2019), Fault slip model of the 2018 Mw 6.6 Hokkaido eastern Iburi, Japan, earthquake estimated from satellite radar and GPS measurements, Remote Sens., 11(14): 1667, doi:10.3390/rs**
[95] He P., Y. Wen*, C. Xu, Y. Chen (2019), Complete three-dimensional near-field surface displacements from imaging geodesy techniques applied to the 2016 Kumamoto earthquake, Remote Sens. Environ., 232, doi: 10.?1016/?j.?rse.?2019.?111321
[94] He P., Y. Wen*, C. Xu, Y. Chen (2019), High-quality three-dimensional displacement fields from new-generation SAR imagery: application to the 2017 Ezgeleh, Iran, earthquake, J. Geod., 93(4): 573–591,doi:10.1007/s00190-018-1183-6
[93] Guo Q., C. Xu, Y. Wen*, Y. Liu, G. Xu (2019), The 2017 noneruptive unrest at the caldera of Cerro Azul volcano (Galápagos Islands) revealed by InSAR observations and geodetic modelling, Remote Sens., 11(17): 1992, https://doi.org/10.3390/rs**
[92] Xiong, W., W. Chen, Y. Wen, G. Liu, Z. Nie, X. Qiao, C. Xu (2019), Insight into the 2017 Mainling Mw 6.5 earthquake: a complicated thrust event beneath the Namche Barwa syntaxis, Earth, Planets Space, 71:71, doi:10.1186/s40623-019-1050-6
[91] Xu G., C. Xu, Y. Wen, Z, Yin (2019), Coseismic and postseismic deformation of the 2016 Mw 6.2 Lampa earthquake, southern Peru, constrained by Interferometric Synthetic Aperture Radar, J. Geophys. Res., doi:10.1029/2018JB016572
[90] Jiang G., Y. Wang, Y. Wen, Y. Liu, C. Xu, C. Xu (2019), Afterslip evolution on the crustal ramp of the Main Himalayan Thrust fault following the 2015 Mw 7.8 Gorkha (Nepal) earthquake, Tectonophysics, 758: 29-43, doi:10.1016/j.tecto.2019.03.005
[89] Wang X., C. Xu, Y. Wen, S. Wang, G. Xu, Z. Xiao, L. Fang (2019), The 2016 Mw 6.0 Hutubi earthquake: a blind thrust event along the northern Tian Shan front, J. Asian Earth Sci., 173: 79-87, doi: 10.1016/j.jseaes.2019.01.011
[88] Fang J., C. Xu, Y. Wen, S. Wang, G. Xu, Y. Zhao, L. Yi (2019), The 2018 Mw 7.5 Palu earthquake: a supershear rupture event constrained by InSAR and broadband regional seismograms, Remote Sens., 11, 1330, doi: 10.3390/rs**
[87] Li W., C. Xu, L. Yi, Y. Wen, X. Zhang (2019), Source parameters and seismogenic structure of the 2017 Mw 6.5 Mainling earthquake in the Eastern Himalayan Syntaxis (Tibet, China), J. Asian Earth Sci., 169: 130-138, doi: 10.1016/j.jseaes.2018.07.027
[86] Xiong W., W. Chen, B. Zhao, Y. Wen, G. Liu, Z. Nie, X. Qiao, and C. Xu (2019),?Insight into the 2016 Menyuan Mw 5.9 earthquake with InSAR: A blind reverse event?promoted by historical earthquakes,?Pure Applied Geophys., 176(2),?577–591, doi:?10.1007/s00024-018-2000-0
[85] Wang S., C. Xu, W. Xu, Z. Yin, Y. Wen, G. Jiang (2019), The 2017 Mw 6.6 Poso earthquake: Implications for extrusion tectonics in central Sulawesi, Seismolo. Res. Lett., 90 (2A), 649-658, doi: 10.1785/
[84] 温扬茂, 高松, 许才军 (2019), 利用双台站背景噪声分析2017年墨西哥Mw 7.1地震震源区的地震波速变化, 地球物理学报, 62(8): 3024-3033, doi: 10.6038/cjg2019M0285
[83] 方进, 许才军, 温扬茂, 许光煜, 丁开华, 何平 (2019), 基于方差分量估计的2015年尼泊尔MW7.8地震同震滑动分布, 地球物理学报, 62(3): 923-939, doi: 10.6038/cjg2019M0476
[82] 刘洋, 许才军, 温扬茂 (2019), 门源Mw 5.9级地震形变InSAR观测及区域断裂带深部几何特征, 武汉大学学报(信息科学版), 44(7): 1035-1042
2018年
[81] Jiang G., Y. Wen*, K. Li, L. Fang, C. Xu, Y. Zhang, X. Xu (2018), A NE-trending oblique-slip fault responsible for the 2016 Zaduo earthquake (Qinghai, China) revealed by InSAR data, Pure Applied Geophys., 175: 4275-4288, doi:10.1007/s00024-018-1948-0
[80] Ding, K., P. He, Y. Wen, Y. Chen, D. Wang, S. Li, Q. Wang (2018), The 2017 Mw 7.3 Ezgeleh, Iran earthquake determined from InSAR measurements and teleseismic waveforms, Geophys. J. Int., 215(3), 1728-1738, https://doi.org/10.1093/gji/ggy371
[79] Yi L., C. Xu, Y. Wen, X. Zhang, G. Jiang (2018), Rupture process of the 2016 Mw 7.8 Ecuador earthquake from joint inversion of InSAR data and teleseismic P waveforms, Tectonophysics, 722: 163-174, doi:10.1016/j.tecto.2017.10.028
[78] Xu G., C. Xu, Y. Wen (2018), Sentinel-1 observation of the 2017 Sangsefid earthquake, northeastern Iran: Rupture of a blind reverse-slip fault near the Eastern Kopeh Dagh,?Tectonophysics,?731-732: 131-138, doi: 10.1016/j.tecto.2018.03.009
[77] Xie?X., C. Xu, Y. Wen?and W. Li (2018),?Monitoring groundwater storage changes in the Loess Plateau using GRACE satellite gravity data, hydrological models and coal mining data, Remote Sens.,?2018,?10(4), 605, doi:?10.3390/rs**
[76] He P., E. A. Hetland, N. A. Niemi, Q. Wang, Y. Wen, K. Ding?(2018)?, The 2016 Mw 6.5 Nura earthquake in the Trans Alai range, northern?Pamir: Possible rupture on a back-thrust fault constrained by Sentinel-1A radar interferometry, Tectonophysics, 749: 62-71, doi: 10.1016/j.tecto.2018.10.025
[75] 温扬茂，冯怡婷 (2018), 地震破裂模型约束下的中国阿里地震三维形变场，武汉大学学报(信息科学版), 43(9): 1369-1375, doi:10.13203/j.whugis**
[74] 谢曦霖, 许才军, 温扬茂*, 周力璇 (2018), 一种基于多面函数的改进最小二乘配置方法, 武汉大学学报(信息科学版), 43(4): 592-598, doi:10.13203/j.whugis**
[73] 温扬茂,?张国波, 许才军 (2018), 川滇地区GPS速度场聚类分析, 大地测量与地球动力学, 38(5): 447-453, doi: 10.14075/j.jgg.2018.05.002
[72] 温扬茂, 许才军, 刘洋 (2018), 测绘工程专业“雷达干涉测量”课程教学探讨, 测绘工程, 27(11): 77-80
[71] 蒋生淼, 易磊, 张旭, 温扬茂 (2018), 2016年日本熊本地震破裂时空过程联合反演, 地震学报, 40(1): 13-23, doi: 10.11939/jass.**
2017年
[70] Xu G., C. Xu, Y. Wen,?G. Jiang (2017),?Source Parameters of the 2016–2017 Central Italy Earthquake Sequence from the Sentinel-1, ALOS-2 and GPS Data. Remote Sens.,? 9(11): 1182, doi:10.3390/rs**
[69] Wang, S., C. Xu, Y. Wen, Z. Yin, G. Jiang and L. Fang (2017), Slip model for the 25 November 2016 Mw 6.6 Aketao earthquake, western China, revealed by Sentinel-1 and ALOS-2 observations, Remote Sens., 9(4): 325, doi:10.3390/rs**
[68] Yi, L., C. Xu,?X. Zhang, Y. Wen, G. Jiang, M. Li, Y. Wang (2017), Joint inversion of GPS, InSAR and teleseismic data sets for the rupture process of the 2015 Gorkha, Nepal, earthquake using a generalized ABIC method, J Asian Earth Sci., 148: 121-130, doi: 10.1016/j.jseaes.2017.08.029

[67] He, P., E. A. Hetland, Q. Wang, K. Ding, Y. Wen, and R. Zou (2017), Coseismic slip in the 2016 Mw 7.8 Ecuador earthquake imaged from Sentinel-1A radar interferometry, Seismolo. Res. Lett., 88(2A): 277-286, doi:10.1785/
[66] Fan Q., C. Xu. L. Yi, Y. Liu, Y. Wen, Z. Yin (2017), Implication of adaptive smoothness constraint and Helmert variance component estimation in seismic slip inversion,?J. Geod.,?doi:10.1007/s00190-017-1015-0
[65] 宋闯, 许才军, 温扬茂, 易磊, 徐文?(2017), 利用高频GPS资料研究2016年新西兰凯库拉地震的地表形变及预警震级,?地球物理学报, 60(9): 3396-3405
[64] 王乐洋, 李海燕, 温扬茂, 许才军 (2017), 地震同震滑动分布反演的总体最小二乘方法, 测绘学报, 46(3): 307-315
[63] 王乐洋, 陈汉清, 温扬茂 (2017), 地壳形变分析的总体最小二乘配置方法, 大地测量与地球动力学, 37(2): 163-168
[62] 肖卓辉, 许才军, 江国焰, 温扬茂 (2017), 汶川地震前十年间龙门山区域顾及断层闭锁的地壳应变场, 地球物理学报, 60(3): 953-961
[61] 刘洋, 许才军, 温扬茂 (2017), 测绘类专业“地球科学概论”理论教学的若干思考, 测绘通报 , 42(6): 146-148+152
[60] 周旭, 许才军, 温扬茂?(2017), 利用时序InSAR技术分析北京及河北廊坊地面沉降, 测绘科学, 42(7): 89-93
2016年
[59] Wen, Y., C. Xu, Y. Liu, G. Jiang (2016), Deformation and source parameters of the 2015 Mw 6.5 earthquake in Pishan, Western China, from Sentinel-1A and ALOS-2 data, Remote Sens.,? 8(2), 134, doi:10.3390/rs**
[58] Zhu, S., C. Xu, Y. Wen, Y. Liu (2016), Interseismic Deformation of the Altyn Tagh Fault Determined by Interferometric Synthetic Aperture Radar (InSAR) Measurements. Remote Sens., 8(3), 233, doi:10.3390/rs**
[57] Xu, C., B. Xu, Y. Wen, Y. Liu (2016), Heterogeneous Fault Mechanisms of the 6 October 2008 Mw 6.3 Dangxiong (Tibet) Earthquake Using Interferometric Synthetic Aperture Radar Observations. Remote Sens., 8(3), 228, doi:10.3390/rs**
[56] Yin Z., C. Xu, Y. Wen, G. Jiang, Q. Fan and Y. Liu (2016), A new hybrid inversion method for parametric curved faults and its application to the 2008 Wenchuan (China) earthquake, Geophys. J. Int.,??205(2):?954–970, doi:10.1093/gji/ggw060
[55] Liu Y.,? C. Xu,? Y. Wen and? Z. Li (2016), Post-seismic deformation from the 2009 Mw 6.3 Dachaidan earthquake in the Northern Qaidam Basin detected by small baseline subset InSAR technique, Sensors, 16(2), 206, doi:10.3390/s**
[54] Liu Y.,? C. Xu,? Z. Li, Y. Wen, J. Chen and? Z. Li (2016), Time-dependent afterslip of the 2009 Mw 6.3 Dachaidan earthquake (China) and viscosity beneath the Qaidam Basin inferred from postseismic deformation observations, Remote Sens., 8(8), 649, doi:10.3390/rs**
[53] Luo H., Y. Liu, T. Chen, C. Xu and Y. Wen (2016), Derivation of three-dimensional surface deformation from an integration of InSAR and GNSS measurements based on Akaike’s Bayesian Information Criterion,?Geophys. J. Int., 204(1):?292-310. doi:10.1093/gji/ggv453
[52] He P., Q. Wang, K. Ding, M. Wang, X. Qiao, J. Li, Y. Wen, C. Xu, S. Yang, and R. Zou (2016), Source model of the 2015 Mw 6.4 Pishan earthquake constrained by InSAR and GPS: insight into blind rupture in the western Kunlun Shan, Geophys. Res. Lett., 43:1511–1519, ?doi:10.1002/2015GL067140
[51] 李永生, 申文豪, 温扬茂, 张景发, 李振洪, 姜文亮, 罗毅 (2016), 2015年尼泊尔Mw 7.8地震震源机制InSAR反演及强地面运动模拟, 地球物理学报, 59(4): 1359-1370
[50] 何平, 许才军, 温扬茂, 丁开华, 王琪 (2016), 时序InSAR的误差模型建立及模拟研究, 武汉大学学报（信息科学版）, 41(6): 752-758
[49]刘洋, 许才军, 温扬茂 (2016), 两次大柴旦Mw 6.3地震间地表形变的InSAR观测及与同震破裂的联合分析, 大地测量与地球动力学, 36(2): 110-114, doi:10.14075/j.jgg.2016.02.004
[48] 刘洋, 许才军, 温扬茂 (2016), 单幅干涉图像提取震间形变场模拟研究, 测绘科学, 41(3): 12-17
2015年
[47] Liu Y., C. Xu, Y. Wen, H. S. Fok (2015), A new perspective on fault geometry and slip distribution of the 2009 Dachaidan Mw 6.3 earthquake from InSAR observations, Sensors , 15:16786-16803, doi:10.3390/s
[46] He P., Y. Wen, C. Xu, Y. Liu, and H. S. Fok (2015), New evidence for active tectonics at the boundary of the Kashi Depression, China, from time series InSAR observations, Tectonophysics, 653:140-148, doi:10.1016/j.tecto.2015.04.011
[45] Jiang, G., Y. Wen*, Y. Liu, X. Xu, L. Fang, G. Chen, M. Gong, and C. Xu (2015), Joint analysis of the 2014 Kangding, southwest China, earthquake sequence with seismicity relocation and InSAR inversion, Geophys. Res. Lett., 42, 3273–3281, doi:10.1002/2015GL063750
[44] Zhou, Y., C. Zhou, F. Deng, D. E, H. Liu, and Y. Wen (2015), Improving InSAR elevation models in Antarctica using laser altimetry, accounting for ice motion, orbital errors and atmospheric delays, Remote Sens. Environ., 162:112-118
[43] 温扬茂, 许才军, 刘洋, 冯万鹏, 李志才 (2015), 升降轨InSAR数据约束下的2007年阿里地震反演分析, 测绘学报, 44(6): 649-654
[42] 刘洋, 许才军, 温扬茂, 何平 (2015), 2008年大柴旦Mw?6.3级地震的InSAR同震形变观测及断层参数反演, 测绘学报, 44(11), 1202-1209
[41] 许才军, 何平, 温扬茂, 刘洋 (2015), InSAR技术及应用研究进展, 测绘地理信息, 40(2), 1-9
[40] 何平, 许才军, 温扬茂, 丁开华, 王庆良 (2015), 利用PALSAR数据研究长白山火山活动性, 武汉大学学报(信息科学版), 40(2), 214-221
2014年
[39] Wang, T., F. He, A. Zhang, L. Gu, Y. Wen, W. Jiang, and H. Shao (2014), A Quantitative Study of Gully Erosion Based on Object-Oriented Analysis Techniques: A Case Study in Beiyanzikou Catchment of Qixia, Shandong, China, Sci. World J., http://dx.doi.org/10.1155/2014/417325
[38] Jiang, G., C. Xu, Y. Wen, X. Xu, K. Ding, and J. Wang (2014), Contemporary tectonic stressing rates of major strike-slip faults in the Tibetan Plateau from GPS observations using least-squares collocation, Tectonophysics, 615–616, 85–95
[37] 温扬茂, 许才军, 李振洪, 刘洋, 冯万鹏, 单新建 (2014), InSAR约束下的2008年汶川地震同震和震后形变分析, 地球物理学报, 57(6), 1814-1824
[36] 李志才, 许才军, 张鹏, 温扬茂 (2014), 顾及地壳粘弹性结构的地震断层震后形变反演分析, 武汉大学学报(信息科学版), 39(12), 1477-1481
2013年
[35] Wen, Y., C. Xu, Y. Liu, G. Jiang, and P. He (2013), Coseismic slip in the 2010 Yushu earthquake (China), constrained by wide-swath and strip-map InSAR, Nat. Hazards Earth Syst. Sci., 13(1), 35-44, doi:10.5194/nhess-13-35-2013.
[34] He, P., Y. Wen, C. Xu, and Y. Liu (2013), The large aftershocks triggered by the 2011 Mw 9.0 Tohoku-Oki earthquake, Japan, J. Asian Earth Sci., 74, 1-10
[33] Jiang, G., C. Xu, Y. Wen, Y. Liu, Z. Yin, and J. Wang (2013), Inversion for coseismic slip distribution of the 2010 Mw 6.9 Yushu Earthquake from InSAR data using angular dislocations, Geophys. J. Int., 194(2): 1011-1022.
[32] 王乐洋, 许才军, 温扬茂 (2013), 利用STLN和InSAR数据反演2008年青海大柴旦Mw 6.3级地震断层参数, 测绘学报, 42(2), 168-176.
[31] 丁开华, 许才军, 温扬茂 (2013), 汶川地震震后形变的GPS反演, 武汉大学学报(信息科学版), 38(02), 131-135.
[30] 李志才, 张鹏, 温扬茂, 廖瑛 (2013), 利用GPS和海底基准点观测形变反演日本大地震(Mw 9.0)同震断层滑动分布, 武汉大学学报(信息科学版), 38(01), 40-43.
[29] 王涛, 顾丽娟, 詹华明, 温扬茂, 洪顺英, 何福红 (2013), 基于D-InSAR技术的天津地区地面沉降监测, 测绘科学, 38(6), 49-51
2012年
[28] Wen, Y., Z. Li, C. Xu, I. Ryder, and R. Bürgmann (2012), Postseismic motion after the 2001 MW 7.8 Kokoxili earthquake in Tibet observed by InSAR time series, J. Geophys. Res., 117(B8), B08405, doi:10.1029/2011JB009043.
[27] Liu, Y., C. Xu, Y. Wen, P. He, and G. Jiang (2012), Fault rupture model of the 2008 Dangxiong (Tibet, China) Mw 6.3 earthquake from Envisat and ALOS data, Adv. Space Res., 50(7), 952-962, doi:10.1016/j.asr.2012.06.006.
[26] 温扬茂, 何平, 许才军, 刘洋 (2012), 联合Envisat和ALOS卫星影像确定L′Aquila地震震源机制, 地球物理学报, 55(01), 53-65.
[25] 温扬茂, 许才军, 刘洋,何平 (2012), 利用断层自动剖分技术的2008年青海大柴旦Mw6.3级地震InSAR反演研究, 武汉大学学报(信息科学版), 37(04), 458-462+507.
[24] 何平, 温扬茂, 许才军, 李志才 (2012), 用多时相InSAR技术研究廊坊地区地下水体积变化, 武汉大学学报(信息科学版), 37(10), 1181-1185.
[23] 许才军, 何平, 温扬茂, 杨永林 (2012), 利用CR-InSAR技术研究鲜水河断层地壳形变, 武汉大学学报(信息科学版), 37(03), 302-305.
[22] 许才军, 何平, 温扬茂, 张磊 (2012), 日本2011 Tohoku-Oki Mw 9.0级地震的同震形变及其滑动分布反演:GPS和InSAR约束, 武汉大学学报(信息科学版), 37(12), 1387-1391+1384.
[21] 许才军, 江国焰, 汪建军, 温扬茂 (2012), 基于GNSS/InSAR/GIS的活动断层地震危险性评估系统, 测绘学报, 41(05), 661-669.
2011年
[20] Xu, C. J., L. Y. Wang, Y. M. Wen, and J. J. Wang (2011), Strain Rates in the Sichuan-Yunnan Region Based upon the Total Least Squares Heterogeneous Strain Model from GPS Data, Terr. Atmos. Ocean. Sci., 22(2), 133-147, doi:10.3319/TAO.2010.07.26.02(TibXS).
[19] Liu, Y., C. Xu, Z. Li, Y. Wen, and D. Forrest (2011), Interseismic slip rate of the Garze–Yushu fault belt in the Tibetan Plateau from C-band InSAR observations between 2003 and 2010, Adv. Space Res., 48(12), 2005-2015, doi:10.1016/j.asr.2011.08.020.
[18] Shan, B., X. Xiong, Y. Zheng, S. Wei, Y. Wen, B. Jin, and C. Ge (2011), The co-seismic Coulomb stress change and expected seismicity rate caused by 14 April 2010 Ms=7.1 Yushu, China, earthquake, Tectonophysics, 510(3-4), 345-353, doi:10.1016/j.tecto.2011.08.003.
[17] 许才军, 何平, 温扬茂 (2011), 利用PSInSAR研究意大利Etna火山的地表形变, 武汉大学学报(信息科学版), 36(09), 1012-1016.
[16] 江国焰, 许才军, 李明峰, 温扬茂 (2011), 利用两种z变换算法的PS-DInSAR相位解缠与等价性证明, 武汉大学学报(信息科学版), 36(03), 338-341.
[15] 许才军, 江国焰, 王浩, 温扬茂 (2011), 基于GIS的InSAR结果分析方法及在汶川Mw7.9级地震同震解释中的应用, 武汉大学学报(信息科学版), 36(04), 379-383+376+507.
2010年
[14] Xu, C., Y. Liu, Y. Wen, and R. Wang (2010), Coseismic Slip Distribution of the 2008 Mw 7.9 Wenchuan Earthquake from Joint Inversion of GPS and InSAR Data, Bull. Seismolo. Soc. Am., 100(5B), 2736-2749, doi:10.1785/.
[13] 许才军, 林敦灵, 温扬茂 (2010), 利用InSAR数据的汶川地震形变场提取及分析, 武汉大学学报(信息科学版), 35(10), 1138-1142+1261-1262.
2009年
Wen, Y. M., and C. J. Xu (2009), Static Stress Change from the 8 November, 1997 Ms 7.9 Manyi, Tibet Earthquake as Inferred from InSAR Observation, in Observing Our Changing Earth, edited by M. G. Sideris, pp. 793-801.
[11] Wu, J., C. Xu, Y. Wen, and F. Xiao (2009), Experimental PALSAR interferometry in Shanghai for ground subsidence monitoring, paper presented at ALOS PI 2008 Symposium, November 3, 2008 – November 7, 2008, European Space Agency, Island of Rhodes, Greece.
[10] 温扬茂, 许才军 (2009), 基于敏感度的迭代拟合法反演玛尼Ms7.9级地震滑动分布, 武汉大学学报(信息科学版), 34(06), 732-735.
[9] 温扬茂, 许才军 (2009), 联合GPS与重力资料反演分析川滇地区现今地壳形变, 武汉大学学报(信息科学版), 34(05), 568-572.
[8] 许才军, 刘洋, 温扬茂 (2009), 利用GPS资料反演汶川Mw 7.9级地震滑动分布, 测绘学报, 38(03), 195-201+215.
[7] 许才军, 汪建军, 温扬茂 (2009), 震后松弛过程的粘弹性模型在1997年Mw7.6玛尼地震中的应用研究, 武汉大学学报(信息科学版), 34(03), 253-256+250.
[6] 李志才, 张鹏, 金双根, 蒋志浩, 温扬茂 (2009), 基于GPS观测数据的汶川地震断层形变反演分析, 测绘学报, 38(02), 108-113+119.
2008年
[5] 许才军, 温扬茂 (2008), 基于InSAR数据的西藏玛尼Ms7.9级地震的地壳不均匀性研究, 武汉大学学报(信息科学版), 33(08), 846-849.
[4] 李志才, 许才军, 张鹏, 温扬茂 (2008), 基于地壳分层的地震断层同震变形反演分析, 武汉大学学报(信息科学版), 33(03), 229-232.
2007年
[3] Xu, C., and Y. Wen (2007), Identification and analysis of crustal motion and deformation models in the Sichuan-Yunnan region, J. Appl. Geod., 1(4), 213-222.
2006年
[2] 李志才, 许才军, 赵少荣, 温扬茂 (2006), 基于地壳分层的震后变形分析, 武汉大学学报(信息科学版), 31(03), 203-208.
2003年
[1] 许才军, 温扬茂 (2003), 活动地块运动和应变模型辨识, 大地测量与地球动力学, 23(03), 50-55.
科技奖励
2017年高等学校科学研究优秀成果奖（自然科学奖）一等奖（序2）
2016年测绘科技进步奖一等奖（序2）
科研项目
9. 国家自然科学基金项目“南天山西段现今地壳运动特征及其变形模式”, 2020-2023, 主持
8. 国家自然科学基金项目“巴颜喀拉块体的现今三维地壳形变与构造活动研究”, 2018-2021, 主持
7. 国家自然科学基金项目“时序InSAR震后形变的龙门山岩石圈流变特征研究”，2013-2015，主持
6. 国家重点研发计划项目“基于地壳形变场、温度场、流体场耦合的地震监测技术研究”，2020-2023，参与
5. 国家重点研发计划项目“综合利用空间观测技术的大地震孕育发生变形时空特征研究”, 2018-2021, 参与
4.?国家自然科学基金中智合作研究项目“基于先进地震成像和大地测量反演算法确定智利地区高分辨地壳结构及其变形特征”，2018-2020，参与
3. 国家自然科学基金重点项目“动态大地测量地球物理数据联合反演模式及应用研究”，2015-2019, 参与
2. 国家自然科学基金中英合作研究项目“面向社区的减轻地震次生灾害风险研究”，2016-2018，参与
1. 国家重点基础研究发展计划和重大科学研究计划项目（973项目）“对地观测、形变与地震波数据联合反演活动断层参数”，2013-2017，参与