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佟啸鹏
更新时间:2020-11-28 来源:北京白家疃国家野外站
姓名:佟啸鹏
籍贯:北京
电子邮件:ttxxpp84@outlook.com
教育背景
2007年9月至2013年6月 博士(PhD), 地球物理学,加州大学圣地亚哥分校,Scripps海洋研究所
2003年9月至2007年6月 学士(B.S.),地球物理学,北京大学,地球与空间科学学院
研究经历:
2018年1月至2019年5月 副研究员,中国科学院地质与地球物理研究所
2014年6月至2016年6月 博士后,华盛顿大学(西雅图),地球与空间科学学院
2013年7月至2014年5月 博士后,加州大学圣地亚哥分校,Scripps海洋研究所
2007年9月至2013年6月 在读博士,加州大学圣地亚哥分校,Scripps海洋研究所
教学经历:
2015年7月 讲课:GMTSAR,加州大学圣地亚哥分校,Scripps海洋研究所
2014年10月 讲课:InSAR,华盛顿大学(西雅图),地球与空间科学学院
2014年7月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2014年2月 讲课:Geodesy,加州大学圣地亚哥分校,Scripps海洋研究所
2013年6月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2012年8月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2009年3月 助教:卫星遥感,加州大学圣地亚哥分校,Scripps海洋研究所
获奖情况:
2008年至2009年 Sobrato奖学金,加州大学圣地亚哥分校,Scripps海洋研究所
2007年至2008年 Folsom奖学金,加州大学圣地亚哥分校,Scripps海洋研究所
2006年至2007年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2005年至2006年 董氏东方奖学金,北京大学,地球与空间科学学院
2004年至2005年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2003年至2004年 三好学生标兵,北京大学,地球与空间科学学院
2003年至2004年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2003年至2004年 宝钢奖学金,北京大学,地球与空间科学学院
科研项目:
序号 项目 来源 时间 主持/参与
1 Geodetic Imaging and modeling of the San Andreas Fault System NSF Earthscope 2009年至2012年 参与
2 Collaborative Research: Strain rate and moment accumulation rate along the San Andreas Fault System from InSAR and GPS NASA 2012年至2015年 参与
3 Improving Community Geodetic Model from GPS and InSAR USGS/SCEC 2014年至2016年 主持
4 Recovering vertical and time-dependent deformation near Coachella Valley, California with InSAR USGS/SCEC 2015年至2016年 参与
5 The detection and monitoring of volcanic deformation in the Cascades of the Pacific Northwest from InSAR NASA 2014年至2016年 参与
6 Interseismic deformation of the Sumatran Fault JAXA 2014年至2018年 主持
发表论文(按时间顺序排列):
1 Tong, X., D. Sandwell, D. Schmidt, Surface creep rate and moment accumulation rate along the Aceh segment of the Sumatran fault from L-band ALOS-1/PALSAR-1 observations (2018), Geophysical Research Letters, 45: 3404-3412, doi:10.1002/2017GL076723
2 Xu, X., D.T. Sandwell, E. Tymofyeyeva, A. González-Ortega and X. Tong, (2017) Tectonic and Anthropogenic Deformation at the Cerro Prieto Geothermal Step-Over Revealed by Sentinel-1A InSAR. IEEE Transactions on Geoscience and Remote Sensing, 55(9): 5284-5292, doi: 10.1109/tgrs.2017.2704593
3 Howell S., B. Smith-Konter, N. Frazer, X. Tong and D. Sandwell (2016), The vertical fingerprint of earthquake cycle loading in southern California, Nature Geoscience, doi:10.1038/NGEO2741
4 Xu, X., X. Tong, D. T. Sandwell, C. Miller, J. Dolan, J. Hollingsworth, S. Leprince, F. Ayoub, Refining the Shallow Slip Deficit (2016), Geophysical Journal International, vol. 204, Issue 3, Pages 1867–1886, doi:10.1093/gji/ggv563
5 Tong X., D. Schmidt, Active movement of the Cascade Landslide Complex from a coherence-based InSAR time-series method (2016), Remote Sensing of Environment, vol. 186, Pages 405-415, doi:10.1016/j.rse.2016.09.008
6 Reuveni, Y., Y. Bock, X. Tong, A. Moore, Calibrating Interferometric Synthetic Aperture Radar (InSAR) Images with Regional GPS Network Atmosphere Models (2015), Geophysical Journal International, 202 (3): 2106- 2119, doi:10.1093/gji/ggv253
7 Tong X., D. Sandwell and B. Smith-Konter, An integral method to estimate the moment accumulation rate along the creeping section of the San Andreas Fault (2015), Geophysical Journal International, 203 (1): 48-62, doi: 10.1093/gji/ggv269
8 Schultz R., K. A. Soofi, P. H. Hennings, X. Tong and D. Sandwell, Using InSAR to detect active deformation associated with faults in Suban field, South Sumatra Basin, Indonesia (2014), The Leading Edge, p.p. 882-888
9 Tong X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geologic and geodetic slip rates along the San Andreas Fault System? (2014), Journal of Geophysical Research-solid earth, doi:10.1002/2013JB010765
10 Yue H., T. Lay, L. Rivera, C. An, C. Vigny, X. Tong and J. C. B. Soto, Localized fault slip to the trench in the 2010 Maule, Chile Mw = 8.8 earthquake from joint inversion of high-rate GPS, teleseismic body waves, InSAR, campaign GPS, and tsunami observations (2014), Journal of Geophysical Research-solid earth, doi: 10.1002/2014JB011340
11 Kaneko Y., Y. Fialko, D. Sandwell, X. Tong, M. Furuya, Interseismic deformation and creeping along the central section of the North Anatolian fault (Turkey): InSAR observations and implications for rate-and-state friction properties (2013), Journal of Geophysical Research-solid earth, doi:10.1029/2012JB009661
12 Tong X., D. Sandwell and B. Smith-Konter, High-resolution interseismic velocity data along the San Andreas Fault from GPS and InSAR (2013), Journal of Geophysical Research-solid earth, 118, doi:10.1029/2012JB009442
13 Pollitz, F., B. Brooks, X. Tong, M. G. Bevis, J. H. Foster, R. Bürgmann, R. Smalley Jr., C. Vigny, A. Socquet, J. C. Ruegg, J. C. S. Barrientos, H. Parra, J. C. B. Soto, S. Cimbaro, M. Blanco, Coseismic slip distribution of the February 27, 2010 Mw 8.8 Maule, Chile earthquake (2011) Geophysical Research Letters, 38, L09309, doi:10.1029/2011GL047065
14 Lorito, S., F. Romano, S. Atzori, X. Tong, A. Avallone, J. McCloskey, M. Cocco, E. Boschi & A. Piatanesi, Limited overlap between the seismic gap and coseismic slip of the great 2010 Chile earthquake (2011) Nature Geoscience, 173-177 doi:10.1038/ngeo1073
15 Luttrell, K., X. Tong, D. Sandwell, B. Brooks, and M. Bevis, Estimates of stress drop and crustal tectonic stress from the 27 February 2010 Maule, Chile, earthquake: Implications for fault strength (2011) Journal of Geophysical Research-solid earth, vol. 116, B11401, 13 pp., doi:10.1029/2011JB008509
16 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, et al., The 2010 Maule, Chile earthquake: Downdip rupture limit revealed by space geodesy (2010), Geophysical Research Letters, vol. 37, L24311, doi:10.1029/2010GL0458055
17 Tong X., D. Sandwell and Y. Fialko, Coseismic slip model of the 2008 Wenchuan earthquake derived from joint inversion of InSAR, GPS and field data (2010), Journal of Geophysical Research-solid earth, vol. 115, B04314, doi:10.1029/2009JB006625
18 Jiang M M, Zhou S Y, Tong X P, et al., Accurate depth determination of deep earthquake in southern Tibet and its geodynamic implication (2009), Chinese Journal of Geophysics (in Chinese), 52(9):2237-2244, doi:10.3969/j.issn.0001-5733.2009.09.007
口头报告:
1 An integral approach to estimate the moment accumulation rate along the creeping section of the San Andreas Fault, seismolunch, University of Washington, Seattle
2 EarthScope Ignite talk, EarthScope National Meeting, Raleigh, North Carolina
3 Application of Global positioning System (GPS) and radar interferometry to earthquake studies, China Ocean University, Qingdao
4 Earthquake cycle model of the San Andreas Fault system from GPS and InSAR, Institute of Geology, China Earthquake Administration (CEA), Beijing
5 Is there a discrepancy between geodetic and geological slip rates along the San Andreas Fault system? Peking University, Beijing
6 Earthquake cycle model of the San Andreas Fault System from GPS and InSAR, University of Science and Technology China (USTC), Hefei
7 High-resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, University of California Berkeley, California
8 GPS-InSAR integration over the San Andreas Fault System, Southern California Earthquake Center (SCEC) Community Geodetic Model (CGM) workshop, Menlo Park, California
9 High resolution interseismic velocity data along the San Andreas Fault from GPS and InSAR, American Geophysics Union (AGU) fall meeting, San Francisco, California
10 High Resolution Interseismic velocity model of the San Andreas fault from GPS and InSAR, Peking University, Beijing
11 Correcting the Ionospheric Phase Advance Signal of P ALSA Using the Global Ionosphere Mapping (GIM) Model, 3rd ALOS Joint PI Symposium, Hawaii
12 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, American Geophysical Union (AGU) annual meeting, San Francisco, California
13 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, 3rd ALOS Joint PI Symposium, Hawaii
14 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, Society of Seismological of America (SSA) annual meeting, Monterey, California
会议报告:
1 Schmidt D. and X. Tong, A survey of landslide activity in the Columbia River Gorge from InSAR, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2015
2 Tong, X., D. Sandwell, D. Schmidt, Interseismic deformation and creep along the Sumatran fault, Indonesia from InSAR time-series analysis, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2015
3 Tong, X. and D. Schmidt, Investigating Persistent and Distributed Scatterers to better resolve low amplitude deformation with InSAR in vegetated terrains,American Geophysical Union (AGU) annual meeting, San Francisco, California, 2014
4 Tong, X., D. Sandwell and B. Smith-Konter, An integral method to estimate the moment accumulation rate on the Creeping Section of the San Andreas Fault, SCEC Annual Meeting, Palm Springs, California, 2014
5 Tong, X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geological and geodetic slip rates along the San Andreas Fault System? American Geophysical Union (AGU) annual meeting, San Francisco, California, 2013
6 Tong, X.,D. Sandwell, and B. Smith-Konter, Earthquake cycle model of the San Andreas Fault constrained by GPS and ALOS radar interferometry, EarthScope National Meeting, Raleigh, North Carolina, 2013
7 Tong, X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geological and geodetic slip rates along the San Andreas Fault System? SCEC Annual Meeting, Palm Springs, California, 2013
8 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, Society of Seismological of America (SSA) annual meeting, San Diego, California, 2012
9 Tong, X., D. Sandwell, and B. Smith-Konter, A systematic estimation of fault creep rates along major faults in California from L-band radar interferometry, Southern California Earthquake Center (SCEC) annual meeting, Palm Springs, California, 2012
10 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, Society of Seismological of America (SSA) annual meeting, San Diego, California, 2012
11 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic crustal velocity model of the San Andreas Fault from GPS and InSAR, EarthScope National Meeting, Austin, Texas, 2011
12 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic crustal velocity model of the San Andreas Fault from GPS and InSAR -- fault creep rate estimation and comparison with UCERF2, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2011
13 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, An Abrupt Decrease in Slip of 2010 Maule, Chile Earthquake at the Continental Moho Depth, GLADE workshop, San Diego, California, 2010
14 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, Coseismic slip of the 2010 Maule, Chile Earthquake: rapid decrease above the continental Moho, EarthScope Institute on the Spectrum of Fault Slip, Portland, Oregon, 2010
15 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, The 2010 Maule, Chile earthquake: Downdip rupture limit revealed by space geodesy, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2010
16 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, Society of Seismological of America (SSA) annual meeting, Monterey, California, 2009
17 Tong, X., D. Sandwell, Assessment of Ionospheric Corrections to ALOS L-Band Interferograms, TIGIR workshop, Pasadena, California, 2009
18 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, 3rd ALOS Joint PI Symposium, Hawaii, 2009
19 Tong, X., D. Sandwell, Correcting the Ionospheric Phase Advance Signal of PALSA Using the Global Ionosphere Mapping (GIM) Model, 3rd ALOS Joint PI Symposium, Hawaii, 2009
20 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2009
21 Tong, X., D. Sandwell, and R. Mellors, Co-seismic displacement from the Mw7.9 Sichuan earthquake derived from ALOS Radar interferometry, Southern California Earthquake Center (SCEC) annual meeting, Palm Springs, California, 2008
22 Tong, X., D. Sandwell, Y. Fialko, and R. Mellors, Coseismic displacement from the M7.9 Sichuan earthquake derived from ALOS Radar interferometry, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2008
籍贯:北京
电子邮件:ttxxpp84@outlook.com
教育背景
2007年9月至2013年6月 博士(PhD), 地球物理学,加州大学圣地亚哥分校,Scripps海洋研究所
2003年9月至2007年6月 学士(B.S.),地球物理学,北京大学,地球与空间科学学院
研究经历:
2018年1月至2019年5月 副研究员,中国科学院地质与地球物理研究所
2014年6月至2016年6月 博士后,华盛顿大学(西雅图),地球与空间科学学院
2013年7月至2014年5月 博士后,加州大学圣地亚哥分校,Scripps海洋研究所
2007年9月至2013年6月 在读博士,加州大学圣地亚哥分校,Scripps海洋研究所
教学经历:
2015年7月 讲课:GMTSAR,加州大学圣地亚哥分校,Scripps海洋研究所
2014年10月 讲课:InSAR,华盛顿大学(西雅图),地球与空间科学学院
2014年7月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2014年2月 讲课:Geodesy,加州大学圣地亚哥分校,Scripps海洋研究所
2013年6月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2012年8月 讲课:GMTSAR,UNAVCO,科罗拉多州,美国
2009年3月 助教:卫星遥感,加州大学圣地亚哥分校,Scripps海洋研究所
获奖情况:
2008年至2009年 Sobrato奖学金,加州大学圣地亚哥分校,Scripps海洋研究所
2007年至2008年 Folsom奖学金,加州大学圣地亚哥分校,Scripps海洋研究所
2006年至2007年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2005年至2006年 董氏东方奖学金,北京大学,地球与空间科学学院
2004年至2005年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2003年至2004年 三好学生标兵,北京大学,地球与空间科学学院
2003年至2004年 中国科学院地球物理学奖学金,北京大学,地球与空间科学学院
2003年至2004年 宝钢奖学金,北京大学,地球与空间科学学院
科研项目:
序号 项目 来源 时间 主持/参与
1 Geodetic Imaging and modeling of the San Andreas Fault System NSF Earthscope 2009年至2012年 参与
2 Collaborative Research: Strain rate and moment accumulation rate along the San Andreas Fault System from InSAR and GPS NASA 2012年至2015年 参与
3 Improving Community Geodetic Model from GPS and InSAR USGS/SCEC 2014年至2016年 主持
4 Recovering vertical and time-dependent deformation near Coachella Valley, California with InSAR USGS/SCEC 2015年至2016年 参与
5 The detection and monitoring of volcanic deformation in the Cascades of the Pacific Northwest from InSAR NASA 2014年至2016年 参与
6 Interseismic deformation of the Sumatran Fault JAXA 2014年至2018年 主持
发表论文(按时间顺序排列):
1 Tong, X., D. Sandwell, D. Schmidt, Surface creep rate and moment accumulation rate along the Aceh segment of the Sumatran fault from L-band ALOS-1/PALSAR-1 observations (2018), Geophysical Research Letters, 45: 3404-3412, doi:10.1002/2017GL076723
2 Xu, X., D.T. Sandwell, E. Tymofyeyeva, A. González-Ortega and X. Tong, (2017) Tectonic and Anthropogenic Deformation at the Cerro Prieto Geothermal Step-Over Revealed by Sentinel-1A InSAR. IEEE Transactions on Geoscience and Remote Sensing, 55(9): 5284-5292, doi: 10.1109/tgrs.2017.2704593
3 Howell S., B. Smith-Konter, N. Frazer, X. Tong and D. Sandwell (2016), The vertical fingerprint of earthquake cycle loading in southern California, Nature Geoscience, doi:10.1038/NGEO2741
4 Xu, X., X. Tong, D. T. Sandwell, C. Miller, J. Dolan, J. Hollingsworth, S. Leprince, F. Ayoub, Refining the Shallow Slip Deficit (2016), Geophysical Journal International, vol. 204, Issue 3, Pages 1867–1886, doi:10.1093/gji/ggv563
5 Tong X., D. Schmidt, Active movement of the Cascade Landslide Complex from a coherence-based InSAR time-series method (2016), Remote Sensing of Environment, vol. 186, Pages 405-415, doi:10.1016/j.rse.2016.09.008
6 Reuveni, Y., Y. Bock, X. Tong, A. Moore, Calibrating Interferometric Synthetic Aperture Radar (InSAR) Images with Regional GPS Network Atmosphere Models (2015), Geophysical Journal International, 202 (3): 2106- 2119, doi:10.1093/gji/ggv253
7 Tong X., D. Sandwell and B. Smith-Konter, An integral method to estimate the moment accumulation rate along the creeping section of the San Andreas Fault (2015), Geophysical Journal International, 203 (1): 48-62, doi: 10.1093/gji/ggv269
8 Schultz R., K. A. Soofi, P. H. Hennings, X. Tong and D. Sandwell, Using InSAR to detect active deformation associated with faults in Suban field, South Sumatra Basin, Indonesia (2014), The Leading Edge, p.p. 882-888
9 Tong X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geologic and geodetic slip rates along the San Andreas Fault System? (2014), Journal of Geophysical Research-solid earth, doi:10.1002/2013JB010765
10 Yue H., T. Lay, L. Rivera, C. An, C. Vigny, X. Tong and J. C. B. Soto, Localized fault slip to the trench in the 2010 Maule, Chile Mw = 8.8 earthquake from joint inversion of high-rate GPS, teleseismic body waves, InSAR, campaign GPS, and tsunami observations (2014), Journal of Geophysical Research-solid earth, doi: 10.1002/2014JB011340
11 Kaneko Y., Y. Fialko, D. Sandwell, X. Tong, M. Furuya, Interseismic deformation and creeping along the central section of the North Anatolian fault (Turkey): InSAR observations and implications for rate-and-state friction properties (2013), Journal of Geophysical Research-solid earth, doi:10.1029/2012JB009661
12 Tong X., D. Sandwell and B. Smith-Konter, High-resolution interseismic velocity data along the San Andreas Fault from GPS and InSAR (2013), Journal of Geophysical Research-solid earth, 118, doi:10.1029/2012JB009442
13 Pollitz, F., B. Brooks, X. Tong, M. G. Bevis, J. H. Foster, R. Bürgmann, R. Smalley Jr., C. Vigny, A. Socquet, J. C. Ruegg, J. C. S. Barrientos, H. Parra, J. C. B. Soto, S. Cimbaro, M. Blanco, Coseismic slip distribution of the February 27, 2010 Mw 8.8 Maule, Chile earthquake (2011) Geophysical Research Letters, 38, L09309, doi:10.1029/2011GL047065
14 Lorito, S., F. Romano, S. Atzori, X. Tong, A. Avallone, J. McCloskey, M. Cocco, E. Boschi & A. Piatanesi, Limited overlap between the seismic gap and coseismic slip of the great 2010 Chile earthquake (2011) Nature Geoscience, 173-177 doi:10.1038/ngeo1073
15 Luttrell, K., X. Tong, D. Sandwell, B. Brooks, and M. Bevis, Estimates of stress drop and crustal tectonic stress from the 27 February 2010 Maule, Chile, earthquake: Implications for fault strength (2011) Journal of Geophysical Research-solid earth, vol. 116, B11401, 13 pp., doi:10.1029/2011JB008509
16 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, et al., The 2010 Maule, Chile earthquake: Downdip rupture limit revealed by space geodesy (2010), Geophysical Research Letters, vol. 37, L24311, doi:10.1029/2010GL0458055
17 Tong X., D. Sandwell and Y. Fialko, Coseismic slip model of the 2008 Wenchuan earthquake derived from joint inversion of InSAR, GPS and field data (2010), Journal of Geophysical Research-solid earth, vol. 115, B04314, doi:10.1029/2009JB006625
18 Jiang M M, Zhou S Y, Tong X P, et al., Accurate depth determination of deep earthquake in southern Tibet and its geodynamic implication (2009), Chinese Journal of Geophysics (in Chinese), 52(9):2237-2244, doi:10.3969/j.issn.0001-5733.2009.09.007
口头报告:
1 An integral approach to estimate the moment accumulation rate along the creeping section of the San Andreas Fault, seismolunch, University of Washington, Seattle
2 EarthScope Ignite talk, EarthScope National Meeting, Raleigh, North Carolina
3 Application of Global positioning System (GPS) and radar interferometry to earthquake studies, China Ocean University, Qingdao
4 Earthquake cycle model of the San Andreas Fault system from GPS and InSAR, Institute of Geology, China Earthquake Administration (CEA), Beijing
5 Is there a discrepancy between geodetic and geological slip rates along the San Andreas Fault system? Peking University, Beijing
6 Earthquake cycle model of the San Andreas Fault System from GPS and InSAR, University of Science and Technology China (USTC), Hefei
7 High-resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, University of California Berkeley, California
8 GPS-InSAR integration over the San Andreas Fault System, Southern California Earthquake Center (SCEC) Community Geodetic Model (CGM) workshop, Menlo Park, California
9 High resolution interseismic velocity data along the San Andreas Fault from GPS and InSAR, American Geophysics Union (AGU) fall meeting, San Francisco, California
10 High Resolution Interseismic velocity model of the San Andreas fault from GPS and InSAR, Peking University, Beijing
11 Correcting the Ionospheric Phase Advance Signal of P ALSA Using the Global Ionosphere Mapping (GIM) Model, 3rd ALOS Joint PI Symposium, Hawaii
12 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, American Geophysical Union (AGU) annual meeting, San Francisco, California
13 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, 3rd ALOS Joint PI Symposium, Hawaii
14 Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, Society of Seismological of America (SSA) annual meeting, Monterey, California
会议报告:
1 Schmidt D. and X. Tong, A survey of landslide activity in the Columbia River Gorge from InSAR, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2015
2 Tong, X., D. Sandwell, D. Schmidt, Interseismic deformation and creep along the Sumatran fault, Indonesia from InSAR time-series analysis, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2015
3 Tong, X. and D. Schmidt, Investigating Persistent and Distributed Scatterers to better resolve low amplitude deformation with InSAR in vegetated terrains,American Geophysical Union (AGU) annual meeting, San Francisco, California, 2014
4 Tong, X., D. Sandwell and B. Smith-Konter, An integral method to estimate the moment accumulation rate on the Creeping Section of the San Andreas Fault, SCEC Annual Meeting, Palm Springs, California, 2014
5 Tong, X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geological and geodetic slip rates along the San Andreas Fault System? American Geophysical Union (AGU) annual meeting, San Francisco, California, 2013
6 Tong, X.,D. Sandwell, and B. Smith-Konter, Earthquake cycle model of the San Andreas Fault constrained by GPS and ALOS radar interferometry, EarthScope National Meeting, Raleigh, North Carolina, 2013
7 Tong, X., B. Smith-Konter and D. Sandwell, Is there a discrepancy between geological and geodetic slip rates along the San Andreas Fault System? SCEC Annual Meeting, Palm Springs, California, 2013
8 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, Society of Seismological of America (SSA) annual meeting, San Diego, California, 2012
9 Tong, X., D. Sandwell, and B. Smith-Konter, A systematic estimation of fault creep rates along major faults in California from L-band radar interferometry, Southern California Earthquake Center (SCEC) annual meeting, Palm Springs, California, 2012
10 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic velocity data of the San Andreas Fault from GPS and InSAR, Society of Seismological of America (SSA) annual meeting, San Diego, California, 2012
11 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic crustal velocity model of the San Andreas Fault from GPS and InSAR, EarthScope National Meeting, Austin, Texas, 2011
12 Tong, X., D. Sandwell, and B. Smith-Konter, High resolution interseismic crustal velocity model of the San Andreas Fault from GPS and InSAR -- fault creep rate estimation and comparison with UCERF2, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2011
13 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, An Abrupt Decrease in Slip of 2010 Maule, Chile Earthquake at the Continental Moho Depth, GLADE workshop, San Diego, California, 2010
14 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, Coseismic slip of the 2010 Maule, Chile Earthquake: rapid decrease above the continental Moho, EarthScope Institute on the Spectrum of Fault Slip, Portland, Oregon, 2010
15 Tong X., D. Sandwell, K. Luttrell, B. Brooks, M. Bevis, M. Shimada, J. Foster, R. Smalley Jr., H. Parra, J. C. B. Soto, M. Blanco, E. Kendrick, J. Genrich, and D. J. Caccamise II, The 2010 Maule, Chile earthquake: Downdip rupture limit revealed by space geodesy, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2010
16 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, Society of Seismological of America (SSA) annual meeting, Monterey, California, 2009
17 Tong, X., D. Sandwell, Assessment of Ionospheric Corrections to ALOS L-Band Interferograms, TIGIR workshop, Pasadena, California, 2009
18 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, 3rd ALOS Joint PI Symposium, Hawaii, 2009
19 Tong, X., D. Sandwell, Correcting the Ionospheric Phase Advance Signal of PALSA Using the Global Ionosphere Mapping (GIM) Model, 3rd ALOS Joint PI Symposium, Hawaii, 2009
20 Tong, X., D. Sandwell, and Y. Fialko, Coseismic Slip Model of the M7.9 Sichuan Earthquake Derived From Joint Inversion of InSAR and GPS Data, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2009
21 Tong, X., D. Sandwell, and R. Mellors, Co-seismic displacement from the Mw7.9 Sichuan earthquake derived from ALOS Radar interferometry, Southern California Earthquake Center (SCEC) annual meeting, Palm Springs, California, 2008
22 Tong, X., D. Sandwell, Y. Fialko, and R. Mellors, Coseismic displacement from the M7.9 Sichuan earthquake derived from ALOS Radar interferometry, American Geophysical Union (AGU) annual meeting, San Francisco, California, 2008
