Source: http://web.mst.edu/~sgao/publications/index.html
Timestamp: 2019-04-18 13:23:55+00:00

Document:
(click here for information about the journals, and here to see a map of the study areas).
95. Zheng, T., Ding, Z., Ning, J., Liu, K.H., Gao, S.S., Chang, L., & Kong, F. (accepted).
Crustal azimuthal anisotropy beneath the central North China Craton revealed by receiver functions.
94. Wang, T.*, Feng, J., Liu, K.H., & Gao, S.S. (2019).
Crustal structure beneath the Malawi and Luangwa Rift Zones and adjacent areas from ambient noise tomography.
93. Abdelnabi, A.A.*, Abushalah, Y., Liu, K.H., & Gao, S.S. (2019).
Integrated geological, geophysical, and petrophysical data to construct full field geological model of Cambrian-Ordovician and Upper Cretaceous Reservoir formations, Central Western Sirte Basin, Libya.
92. Kong, F.*, Gao, S.S., Liu, K.H., Song, J., Ding, W., Fang, Y., Ruan, A, & Li, J. (2018).
Receiver function investigations of seismic anisotropy layering beneath Southern California.
91. Zheng, T., Ding, Z., Ning, J., Chang, L., Wang, X., Kong, F., Liu, K.H., & Gao, S.S. (2018).
Crustal azimuthal anisotropy beneath the southeastern Tibetan Plateau and its geodynamic implications.
90. Kong, F.*, Wu, J., Liu, L.*, Liu, K.H., Song, J., Li, J., & Gao, S.S. (2018).
Azimuthal anisotropy and mantle flow underneath the southeastern Tibetan Plateau and northern Indochina Peninsula revealed by shear wave splitting analyses.
89. Sun, M.*, Fu, X., Liu, K.H., & Gao, S.S. (2018).
Absence of thermal influence from the African Superswell and cratonic keels on the mantle transition zone beneath southern Africa: Evidence from receiver function imaging.
88. Qaysi, S.*, Liu, K.H., & Gao, S.S. (2018).
A database of shear wave splitting measurements for the Arabian Plate.
86. Yu, Y.*, Gao, S.S., Liu, K.H., Yang, T., Xue, M., Le, K.P., & Gao, J. (2018).
Characteristics of the mantle flow system beneath the Indochina Peninsula revealed by teleseismic shear wave splitting analysis.
85. Sun, M.*, Liu, K. H., Fu, X., & Gao, S. S. (2017).
Receiver function imaging of mantle transition zone discontinuities beneath the Tanzania Craton and adjacent segments of the East African Rift System.
84. Dahm, H. H.*, Gao, S. S., Kong, F.*, & Liu, K. H. (2017).
Topography of the mantle transition zone discontinuities beneath Alaska and its geodynamic implications: Constraints from receiver function stacking.
83. Reed, C. A.*, Liu, K. H., Yu, Y.*, & Gao, S. S. (2017).
Seismic anisotropy and mantle dynamics beneath the Malawi Rift Zone, East Africa.
82. Yu, Y.*, Gao, S. S., Liu, K. H., Yang, T., Xue, M., & Le, K. P. (2017).
Mantle transition zone discontinuities beneath the Indochina Peninsula: Implications for slab subduction and mantle upwelling.
81. Yu, Y.*, Hung, T. D., Yang, T., Xue, M., Liu, K. H., & Gao, S. S. (2017).
Lateral variations of crustal structure beneath the Indochina Peninsula.
80. Liu, L.*, Gao, S. S., Liu, K. H., & Mickus, K. (2017).
Receiver function and gravity constraints on crustal structure and vertical movements of the Upper Mississippi Embayment and Ozark Uplift.
79. Yang, B. B.*, Liu, Y.*, Dahm, H.*, Liu, K. H., & Gao, S. S. (2017).
Seismic azimuthal anisotropy beneath the eastern United States and its geodynamic implications.
78. Emishaw, L., Lao-Davila, D. A., Abdelsalam, M. G., Atekwana, E. A., & Gao, S. S. (2017).
Evolution of the Broadly Rifted Zone in southern Ethiopia through gravitational collapse of dynamic topography.
77. Yu, Y.*, Liu, K. H., Huang, Z., Zhao, D., Reed, C. A.*, Moidaki, M.*, Lei, J., & Gao, S. S. (2017).
Mantle structure beneath the incipient Okavango Rift Zone in southern Africa.
76. Reed, C. A.*, Liu, K. H., Chindandali, P., Massingue, B., Mdala, H., Mutamina, D., Yu, Y.*, & Gao, S. S. (2016).
Passive rifting of thick lithosphere in the southern East African Rift: Evidence from mantle transition zone discontinuity topography.
75. Cherie, S. G.*, Gao, S. S., Liu, K. H., Elsheikh, A. A.*, Kong, F.*, Reed, C. A.*, & Yang, B. B.* (2016).
Shear wave splitting analyses in Tian Shan: Geodynamic implications of complex seismic anisotropy.
74. Reed, C. A.*, Gao, S. S., Liu, K. H., & Yu, Y.* (2016).
The mantle transition zone beneath the Afar Depression and adjacent regions: Implications for mantle plumes and hydration.
73. Kong, F. S.*, Wu, J., Liu, K. H., & Gao, S. S. (2016).
Crustal anisotropy and ductile flow beneath the eastern Tibetan Plateau and adjacent areas.
72. Yang, B. B.*, Liu, K. H., Dahm, H. H.*, & Gao, S. S. (2016).
A uniform database of teleseismic shear wave splitting measurements for the western and central United States: December 2014 update.
71. Yu, Y.*, Liu, K. H., Reed, C. A.*, Moidaki, M.*, Mickus, K., Atekwana, E. A., & Gao, S. S. (2015).
A joint receiver function and gravity study of crustal structure beneath the incipient Okavango Rift, Botswana.
70. Yu, Y.*, Gao, S. S., Moidaki, M.*, Reed*, C. A., & Liu, K. H. (2015).
Seismic anisotropy beneath the incipient Okavango rift: Implications for rifting initiation.
69. Kong, F. S.*, Gao, S. S., & Liu, K. H. (2015).
On the applicability of the multiple-event stacking technique for shear wave splitting analysis.
68. Yu, Y.*, Liu, K. H., Moidaki, M.*, Reed, C. A.*, & Gao, S. S. (2015).
Evidence from the first receiver function study across the Okavango Rift Zone, Botswana.
67. Lemnifi, A.*, Liu, K. H., Gao, S. S., Reed, C. R.*, Elsheikh, A.*, Yu, Y.*, & Elmelade, A. (2015).
Azimuthal anisotropy beneath north central Africa from shear wave splitting analyses.
66. Yu, Y.*, Song, J., Liu, K. H., & Gao, S. S. (2015).
Determining crustal structure beneath seismic stations overlying a low-velocity sedimentary layer using receiver functions.
65. Wu, J., Zhang, Z., Kong, F. S.*, Yang, B. B.*, Yu, Y.*, Liu, K. H., & Gao, S. S. (2015).
Complex seismic anisotropy beneath western Tibet and its geodynamic implications.
64. Kong, F. S.*, Gao, S. S., & Liu, K. H. (2015).
A systematic comparison of the transverse energy minimization and splitting intensity techniques for measuring shear-wave splitting parameters.
63. Gao, S. S., & Liu, K. H. (2014).
Mantle transition zone discontinuities beneath the contiguous United States.
Supporting info: 26 E-W cross-sections with velocity anomalies and a table of all the measurements.
62. Mohamed, A. A., Gao, S. S., Elsheikh, A. A.*, Liu, K. H., Yu, Y.*, & Fat-Helbary, R. E. (2014).
Seismic imaging of mantle transition zone discontinuities beneath the northern Red Sea and adjacent areas.
61. Elsheikh, A. A.*, Gao, S. S., & Liu, K. H. (2014).
Formation of the Cameroon Volcanic Line by lithospheric basal erosion: Insight from mantle seismic anisotropy.
60. Elsheikh, A. A.*, Gao, S. S., Liu, K. H., Mohamed, A. A., Yu, Y.*, & Fat-Helbary, R. E. (2014).
Seismic anisotropy and subduction-induced mantle fabrics beneath the Arabian and Nubian plates adjacent to the Red Sea.
59. Liu, K. H., Elsheikh, A.*, Lemnifi, A.*, Purevsuren, U.*, Ray, M.*, Refayee, H.*, Yang, B.*, Yu, Y.*, & Gao, S. S. (2014).
A uniform database of teleseismic shear wave splitting measurements for the western and central United States.
58. Reed, C. A.*, Almadani, S.*, Gao, S. S., Elsheikh, A. A.*, Cherie, S.*, Abdelsalam, M., Thurmond, A., & Liu, K. H. (2014).
Receiver function constraints on crustal seismic velocities and partial melting beneath the Red Sea rift and adjacent regions, Afar Depression.
57. Yang, B.*, Gao, S. S., Liu, K. H., Elsheikh, A. A.*, Lemnifi, A. A.*, Refayee, H. A.*, & Yu, Y.* (2014).
Seismic anisotropy and mantle flow beneath the northern Great Plains of North America.
56. Gao, S. S., & Liu, K. H. (2014).
Imaging mantle discontinuities using multiply-reflected P-to-S conversions.
55. Refayee, H. A.*, Yang, B. B.*, Liu, K. H., & Gao, S. S. (2014).
Mantle flow and lithosphere-asthenosphere coupling beneath the southwestern edge of the North American Craton: Constraints from shear-wave splitting measurements.
54. Liu, K. H., & Gao, S. S. (2013).
Making reliable shear-wave splitting measurements.
53. Gao, S. S., Liu, K. H., Reed, C. A.*, Yu, Y.*, Massinque, B., Mdala, H., Moidaki, M.*, Mutamina, D., Atekwana, E. A., Ingate, S., & Reusch, A. M. (2013).
Seismic arrays to study African rift initiation.
52. Moidaki, M.*, Gao, S. S., Liu, K. H., & Atekwana, E. (2013).
Crustal thickness and Moho sharpness beneath the Midcontinent Rift from receiver functions.
51. Gao, S. S., & Liu, K. H. (2012).
AnisDep: A FORTRAN program for the estimation of the depth of anisotropy using spatial coherency of shear-wave splitting parameters.
50. Wang, B. Z.*, Gao, S. S., Liu, K. H., & Krebes, E. S. (2012).
High-accuracy practical spline-based 2D and 3D integral transformations in potential-field geophysics.
49. Bridges, D.*, Mickus, K., Gao, S. S., Abdelsalam, M. G., & Alemu, A. (2012).
Magnetic stripes of a transitional continental rift in Afar.
48. Satsukawa, T., Michibayashi, M., Anthony, E. Y., Stern, R. J., Gao, S. S., & Liu, K. H. (2011).
Seismic anisotropy of the uppermost mantle beneath the Rio Grande rift: Evidence from Kilbourne Hole peridotite xenoliths, New Mexico.
47. Bashir, L.*, Gao, S. S., Liu, K. H., & Mickus, K. (2011).
Crustal structure and evolution beneath the Colorado Plateau and the southern Basin and Range Province: Results from receiver function and gravity studies.
46. Abdelsalam, M. G., Gao, S. S., & Liegeois, J.-P. (2011).
Upper mantle structure of the Saharan Metacraton.
45. Liu, K. H., & Gao, S. S. (2011).
Estimation of the depth of anisotropy using spatial coherency of shear-wave splitting parameters.
44. Gao, S. S., Liu, K. H., & Abdelsalam, M. G. (2010).
Seismic anisotropy beneath the Afar Depression and adjacent areas: Implications for mantle flow.
43. Liu, K. H., & Gao, S. S. (2010).
Spatial variations of crustal characteristics beneath the Hoggar swell, Algeria, revealed by systematic analyses of receiver functions from a single seismic station.
42. Moidaki M.*, Gao, S. S., Liu, K. H., Abdelsalam, M. G., Hogan, J. P., & Atekwana, E. (2010).
Converted P-to-S phase and Moho quality beneath the New Madrid seismic Zone from receiver function studies.
41. Atef, A.*, Liu, K. H., & Gao, S. S. (2009).
Apparent weekly and daily earthquake periodicities in the western United States.
40. Gao, S. S., & Liu, K. H. (2009).
Significant seismic anisotropy beneath the southern Lhasa Terrane, Tibetan Plateau.
39. Liu, K. H., Gao, S. S., Gao, Y., & Wu, J. (2008).
Shear wave splitting and mantle flow associated with the deflected Pacific slab beneath northeast Asia.
38. Gao, S. S., Liu, K. H., Stern, R. J., Keller, G. R., Hogan, J. P., Pulliam, J., & Anthony, E. Y. (2008).
Characteristics of mantle fabrics beneath the south-central United States: Constraints from shear-wave splitting measurements.
37. Gao, S. S., Niemi, T. M., Black, R. A., Liu, K. H., Joeckel, R. M., Busby, R. W., & Taber, J. (2008).
Rationale for a permanent seismic network in the Central Plains utilizing USArray.
(Click here for electronic supplementary material).
36. Liu, K. H., & Gao, S. S. (2006).
Mantle transition zone discontinuities beneath the Baikal rift and adjacent areas.
35. Nair, S. K.*, Gao, S. S., Liu, K. H., & Silver, P. G. (2006).
Southern African crustal evolution and composition: Constraints from receiver function studies.
34. Zhao, D., Lei, J., Inoue, T., Yamada, A., & Gao, S. S. (2006).
Deep structure and origin of the Baikal Rift Zone.
33. Bridges, D. L.*, & Gao, S. S. (2006).
Spatial variation of seismic b-values beneath Makushin Volcano, Unalaska Island, Alaska.
32. Gao, S. S., Liu, K. H., & Chen, C.* (2004).
Significant crustal thinning beneath the Baikal rift zone: New constraints from receiver function analysis.
31. Silver, P. G., Fouch, M., Gao, S. S., Schmitz, M. D., & the Kaapvaal Seismic Group (2004).
Seismic anisotropy, mantle fabric, and the magmatic evolution of Precambrian southern Africa.
30. Gao, S. S., & Liu, K. H. (2004).
Seafloor asymmetry in the Atlantic Ocean.
29. Fouch, M. J., James, D. E., VanDecar, J. C., van der Lee, S., & the Kaapvaal Seismic Group (2004).
Mantle seismic structure beneath the Kaapvaal and Zimbabwe Cratons.
28. Liu, K. H., Gao, S. S., Silver, P. G., & Zhang, Y. K.* (2003).
Mantle layering across central South America.
27. Hubbard, M. S., Gao, S. S., Liu, K. H., Nicolaysen, K. E., & Oviatt, C. G. (2003).
Great Plains workshop held to prepare for USArray deployment.
Eos, Transactions of the American Geophysical Union, 84, 314-320.
26. Gao, S. S., Liu, K. H., Davis, P. M., Slack, P. D., Zorin, Y. A., Mordvinova, V. V., & Kozhevnikov, V. M. (2003).
Evidence for small-scale mantle convection in the upper mantle beneath the Baikal Rift Zone.
25. Hui, R., Thomas, J., Allen, C., Fu, B., & Gao, S. (2003).
Low coherent, WDM reflectometry for accurate fiber length monitoring.
24. Zorin, Y. A., Mordvinova, V. V., Kosarev, G. L., Turutanov, E. K., Belichenkoa, B. G., & Gao, S. S. (2002).
Low seismic velocity layers in the Earth's crust of eastern Siberia (Russia) and Mongolia: Receiver function data and geological implication.
23. Gao, S. S., Silver, P. G., & Liu, K. H. (2002).
Mantle discontinuities beneath southern Africa.
22. Cao, A.*, & Gao, S. S. (2002).
Temporal variation of seismic b-values beneath northeastern Japan island arc.
21. Zorin, Y. A., Mordvinova, V. V., Turutanov, E. K., Belichenko, V. G., Mazukabzov, A. M., Kosarev, G. L., & Gao, S. S. (2002).
New geophysical data on thrust faults in the Baikal and Transbaikal regions and Central Mongolia.
20. Liu, K. H., & Gao, S. S. (2001).
Characterization of a continuous, very narrowband seismic signal near 2.08 Hz.
19. Silver, P. G., Gao, S. S., Liu, K. H., & the Kaapvaal Seismic Group (2001).
Mantle deformation beneath southern Africa.
18. Nguuri, T. K., Gore, J., James, D. E., Webb, S. J., Wright, C., Zengeni, T. G., Gwavava, O., Snoke, J. A., & the Kaapvaal Seismic Group (2001).
Crustal structure beneath southern Africa and its implications for the formation and evolution of the Kaapvaal and Zimbabwe cratons.
17. James, D. E., Fouch, M. J., VanDecar, J. C., van der Lee, S., & the Kaapvaal Seismic Group (2001).
Tectospheric structure beneath southern Africa.
16. Freybourger, M., Gaherty, J. B., Jordan, T. H., & the Kaapvaal Seismic Group (2001).
Structure of the Kaapvaal craton from surface waves.
15. Gao, S. S., Silver, P. G., & Linde, A. T. (2000).
A comprehensive analysis of deformation data at Parkfield, California: Detection of a long-term strain transient.
14. Gao, S. S., Silver, P. G., Linde, A. T., & Sacks, I. S. (2000).
Annual modulation of triggered seismicity following the 1992 Landers earthquake in California.
13. Davis, P. M., Rubinstein, J. L., Liu, K. H., Gao, S. S., & Knopoff, L. (2000).
Northridge earthquake damage caused by geologic focusing of seismic waves.
12. Gao, S., Davis, P. M., Liu, H., Slack, P. D., Rigor, A. W., Zorin, Y. A., Mordvinova, V. V., Kozhevnikov, V. M., & Logatchev, N. A. (1999).
"SKS splitting beneath continental rifts zones" by Gao et al. - Reply.
11. Gao, S., Davis, P. M., Liu, H., Slack, P. D., Rigor, A. W., Zorin, Y. A., Mordvinova, V. V., Kozhevnikov, V. M., & Logatchev, N. A. (1997).
SKS splitting beneath continental rift zones.
A Bayesian approach for the calculation of seismic body-wave attenuation factors.
Bulletin of the Seismological Society of America, 87, 961-970.
9. Gao, S., Liu, H., Davis, P. M., & Knopoff, L. (1996).
Localized amplification of seismic waves and correlation with damage due to the Northridge earthquake.
Bulletin of the Seismological Society of America, 86, S209-S230.
8. Gao, S., Liu, H., Davis, P. M., Knopoff, L., & Fuis, G. (1996).
A 98-station seismic array to record aftershocks of the 1994 Northridge earthquake.
USGS Open File Report, OF 96-690.
7. Kohler, M. D., Davis, P. M., Liu, H., Benthien, M., Gao, S., Fuis, G. S., Clayton, R. W., Okaya, D., & Mori, J. (1996).
Data report for the 1993 Los Angeles Region Seismic Experiment (LARSE93), Southern California: A passive study from Seal Beach northeastward through the Mojave Desert.
USGS Open File Report, OF 96-0085.
6. Mordvinova, V. V., Zorin, Y. A., Gao, S., & Davis, P. M. (1996).
Thickness of the crust along the Irkutsk - Ulan_Bator - Undurshil profile from spectral ratios of body seismic waves.
Physics of the Solid Earth, 31, 727-734.
5. Liu, H., Davis, P. M., & Gao, S. (1995).
SKS splitting beneath southern California.
4. Gao, S., Davis, P. M., Liu, H., Slack, P. D., Zorin, Y. A., Logatchev, N. A., Kogan, M. G., Burkholder, P. D., & Meyer, R. P. (1994).
Preliminary results of teleseismic studies of the mantle of the Baikal Rift.
Physics of the Earth, N7-8, 113-122.
3. Zorin, Y. A., Belichenko, V. G., Turutanov, E. K., Modvinova, V. V., Kozhevnikov, V. M., Khozbayar, P., Tomurtogoo, O., Arvisbaatar, N., Gao, S., & Davis, P. (1994).
Russian Geology and Geophysics, 35, 78-92.
2. Gao, S., Davis, P. M., Liu, H., Slack, P. D., Zorin, Y. A., Logatchev, N. A., Kogan, M., Burkholder, P., & Meyer, R. P. (1994).
Asymmetric upwarp of the asthenosphere beneath the Baikal Rift Zone, Siberia.
1. Gao, S., Davis, P. M., Liu, H., Slack, P. D., Zorin, Y. A., Mordvinova, V. V., Kozhevnikov, V. M., & Meyer, R. P. (1994).
Seismic anisotropy and mantle flow beneath the Baikal Rift Zone.
Seismic evidence for small scale mantle convection under the Baikal Rift Zone, Siberia.
PhD dissertation, University of California, Los Angeles (11 MB in size).
Eos, Trans. Am. Geophys. Union, 73, 408.
Proceedings of the 14th Annual Pl/DARPA Seismic Research Symposium: 99-110.
Fifth Annual IRIS Workshop, Hawaii.
Eos, Trans. Am. Geophys. Union, 74, 404.
Seism. Res. Lett., 65, 15.
Seism. Res. Lett., 65, 204.
Seism. Res. Lett., 65, 18.
Eos, Trans. Am. Geophys. Union, 75, 67.
Eos,Trans. Am. Geophys. Union, 75, 67.
Eos, Trans. Am. Geophys. Union, 75, G31A-05.
Eos, Trans. Am. Geophys. Union, 75, G31A-04.
Eos, Trans. Am. Geophys. Union, 76, S31A-06.
Proceedings of the 17th Annual Pl/DARPA Seismic Research Symposium.
Eos, Trans. Am. Geophys. Union, 76, S41E-02.
PhD thesis, UCLA, 221 pages.
Eos, Trans. Am. Geophys. Union, 76, S12A-06.
Proceedings of the 18 Annual Seismic Research Symposium on Monitoring a comprehensive Test Ban Treaty.
USGS Open File Report , OF 96-0085.
Annual report of the Southern California Earthquake Center.
Eos, Trans. Am. Geophys. Union, 77, T12A-36.
Eos, Trans. Am. Geophys. Union, 77, S21D-02.
Eos, Trans. Am. Geophys. Union, 77, T41A-10.
Eos, Trans. Am. Geophys. Union, 78, S22A-02.
Eos, Trans. Am. Geophys. Union, 78, S31B-07.
Eos, Trans. Am. Geophys. Union, 78, S12A-04.
Eos, Trans. Am. Geophys. Union, 78, S21E-03, Fall meeting.
Eos, Trans. Am. Geophys. Union, 78, G42A-08, Fall meeting.
Eos, Trans. Am. Geophys. Union, 78, S51D-11, Fall meeting.
Eos, Trans. Am. Geophys. Union, 78, G41A-17, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, S32A-06, Spring meeting.
Abstract to the Kimberlite Conference, Capetown, South Africa.
Eos, Trans. Am. Geophys. Union, 79, S32A-07, Spring meeting.
Eos, Trans. Am. Geophys. Union, 79, S51B-06, Spring meeting.
Eos, Trans. Am. Geophys. Union, 79, S51C-03, Spring meeting.
Eos, Trans. Am. Geophys. Union, 79, S11B-03.
Eos, Trans. Am. Geophys. Union, 79, S11B-04, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, S72D-04, invited, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, S11B-02, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, S32C-02, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, S12F-04, invited, Fall meeting.
Eos, Trans. Am. Geophys. Union, 79, G71H-02, invited, Fall meeting.
23rd General Assembly of the European Geophysical Society; Part 1, Society Symposia, Solid Earth, Geophysics and Geodesy; Annales Geophysicae, vol. 16, Suppl. 1; p. 154.
Eos, Trans. Am. Geophys. Union, 80, S21E-06, 1999 (Fall meeting).
Eos, Trans. Am. Geophys. Union, 80, S41D-12, 1999 (Fall meeting).
Eos, Trans. Am. Geophys. Union, 80, S22C-07, invited, 1999 (Fall meeting).
Eos, Trans. Am. Geophys. Union, 80, S32C-14, 1999 (Fall meeting).
Eos, Trans. Am. Geophys. Union, 81, S61A-03, 2000 (Spring meeting).
Eos, Trans. Am. Geophys. Union, 81, S31A-08, 2000 (Spring meeting).
Eos, Trans. Am. Geophys. Union, 81, S61A-12, 2000 (Spring meeting).
Geological Society of America Abstracts with Programs, GSA Annual Meeting, A-163, 2000.
Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract S71A-07, 2000.
Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract S52B-09, 2000.
Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract S72A-30, 2000.
Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract S62D-10, 2000.
Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract U72A-26, 2000.
Eos Trans. AGU, 82(47), Fall Meet., Suppl., Abstract S31B-0607, 2001.
Eos Trans. AGU, 82(47), Fall, Meet. Suppl., Abstract S51E-03, 2001.
Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract S42B-0646, 2001.
13th Annual IRIS (Incorporated Research Institutions for Seismology) Workshop, Jackson Lodge, Wyo., June, 2001.
IAGA-IASPEI Joint Scientific Assembly, 2001.
GSA Annual Meeting Abstracts, Denver, Oct., 2002.
Abstracts with Programs, 34 (6), GSA Annual Meeting Abstracts, Denver, pp. 21, 2002.
Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract S51A-1032, 2002.
Structure of the 660-km discontinuity below a deflected slab: complex or simple?
Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract S51A-1033, 2002.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract S41D-01111, 2003.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract T11B-08, 2003.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract S51A-06, 2003.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract S51C-0059, 2003.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract S22B-0449, 2003.
Eos Trans. AGU, 84(46), Fall Meet. Suppl., Abstract S51F-05, 2003.
Eos Trans. AGU, 85(47), Fall Meet. Suppl., Abstract T21B-0537, 2004.
Eos Trans. AGU, 85(47), Fall Meet. Suppl., Abstract S13B-1049, 2004.
Eos Trans. AGU, 85(47), Fall Meet. Suppl., Abstract S13B-1068, 2004.
Eos Trans. AGUnion, 86(52), Fall Meet. Suppl., Abstract S41E-02, 2005.
Eos Trans. AGU, 86(52), Fall Meet. Suppl., Abstract S33B-0330, 2005.
Eos Trans. AGU, 86(52), Fall Meet. Suppl., Abstract DI41A-1266, 2005.
in IRIS cornerstone facilities for seismology and Earth sciences, 2005.
Geophysical Society of Kansas Newsletter, vol. 2, 2005.
Geological Society of America Abstracts with Programs, Specialty Meeting No. 2, p.55. Mendoza, Argentina, 3-7 April, 2006.
Eos Trans. AGU, 87(36), West. Pac. Geophys. Meet. Suup., Abstract S11B-0131, 2006.
Eos Trans. AGU, 87(36), West. Pac. Geophys. Meet. Suppl., Abstract S12A-05, 2006.
Eos Trans. AGU, 87(52), Fall Meet. Suppl., Abstract S53A-1302, 2006.
Earth Scope National Meeting, March, 2007, Monterey Bay, CA.
Gordon Conference abstract, June 2007, South Hadley, MA.
Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract S42A-08, 2007.
Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract V34A-08, 2007.
Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract T23A-1204, 2007.
Eos Trans. AGU, 89(23), Jt. Assem. Suppl., Abstract S44A-02, 2008.
Eos Trans. AGU, 89(23), Jt. Assem. Suppl., Abstract S44A-03, 2008.
GSA South-Central section 42nd Annual Meeting, 2008.
The 5th Tibetan Plateau Conference, Beijing, China, August 2009.
Origin of initial rifting in the Red Sea: Was it vertical tectonics?
Geological Society of America Abstracts with Programs, vol. 41, No. 7, p. 127, GSA Annual Meeting, 2009.
GSA Cordilleran Section meeting - 105th Annual meeting, 2009.
GSA North-Central/South-Central annual meeting, GSA Abstracts with Programs, vol. 42, 2010.
GSA Rocky Mountain Section annual meeting, GSA Abstracts with Programs, vol. 42, 2010.
Eos Trans. AGU, 91(26), Western Pacific Geophysical Meeting, Taipei, Taiwan. 2010.
AGU Meetings of the Americas, Foz do Iguassu, Brazil, 2010.
GSA Northeastern (46th Annual) and North-Central (45th Annual) Joint Meeting (20-22 March 2011).
GSA South-Central Section - 45th Annual Meeting (27.29 March 2011).
Geophysical Research Abstracts, Vol. 13, EGU2011-5167, EGU General Assembly, 2011.
presented at 2011 Fall Meeting, AGU, San Francisco, Calif.
Seismological Society of America Eastern US section meeting, Little Rock, Arkansas.
GSA Abstracts with Programs Vol. 44, No. 7.
presented at 2012 Fall Meeting, AGU, San Francisco, Calif.
Annual meeting of the Seismological Society of America, April, 2013. Salt Lake City.
Eos Trans. AGU, Fall Meet. Suppl.
International Workshop on the Frontiers of Computational Geodynamics, Beijing.
Geological Society South-central section meeting abstract.
International Workshop on the Frontiers of Geosciences and IPACESS Annual Workshop, Nanjing University, China.
Geological Society of America South-Central 50th annual meeting.
Frontiers of Geosciences and IPACES Joint Conference, 6/18-19, Wuhan University, China.
The First China Georeference Conference, 06/27-29, Beijing, IGG, Chinese Academy of Sciences.
The Second International Workshop on Geophysical Imaging of Subsurface Reservoirs and Fluids, 7/2-3, Qingdao, Ocean University of China.
Paper No. 229-1, Geological Society of America annual meeting.
Paper No. 130-2, Geological Society of America annual meeting.
Society of Exploration Geophysicists annual meeting, extended abstract. https://doi.org/10.1190/segam2016-13846377.1.
American Geophysical Union Fall Meeting, San Francisco, CA.
Society of Exploration Geophysicists annual meeting, extended abstract.
paper No. 29-2, Geological Society of America annual meeting.
paper No. 117-13, Geological Society of America annual meeting.
paper No. 117-10, Geological Society of America annual meeting.
Frontiers of Geosciences and IPACES Joint Conference, 7/1-7/2, Southern University of Science and Technology, Shenzhen, China.
American Geophysical Union Fall Meeting.
225. Gao, S.S., K.H. Liu (2018).
Geological Society of America annual meeting, Nov. 4-7, Indianapolis.
225. Song, J., K.H. Liu, S.S. Gao, M. Sun*, Y. Yu, F. Kong, and K. Mickus (2018).
15th Annual Meeting of the Asia Oceania Geosciences Society, Honolulu, Hawaii.
227. Liu, K. H., Cherie, S.*, Elsheikh, A.*, Kong, F.*, Reed*, C., Yang, B.*, & Gao, S. S. (2018).
Geodynamic implications of complex seismic anisotropy beneath Tienshan.
228. Gao, S. S., & Liu, K. H. (2018).
On the measurement and interpretation of XKS splitting parameters.
229. Gao, S. S., Liu, K. H., & Davis, P. M. (2018).
The effects of sedimentary basins on ground shaking amplitude: Examples from the Los Angeles Basin.
230. Qaysi, S. I.*, Liu, K. H., & Gao, S. S. (2018).
Seismic anisotropy and mantle dynamics beneath the Arabian Plate.
Annual Meeting of the Seismological Society of America, Miami, Florida.
231. Liu, L.*, Gao, S. S., Kong, F. S., & Liu, K. H. (2018).
Mantle flow induced by slab subduction and rollback beneath the Eastern Himalayan syntaxis and adjacent areas.
232. Miao, Z.*, Gao, S. S., Sun, M., & Liu, K. H. (2018).
Receiver function imaging of mantle transition zone discontinuities beneath the Tibetan Plateau and adjacent areas.
233. Wang, T.*, Liu, K. H., Dai, Y., Yang, Q., & Gao, S. S. (2018).
A 3-D shear wave velocity model of the crust and uppermost mantle beneath southern Africa by joint inversion of Rayleigh wave phase velocity dispersion and receiver functions.
234. Xue, T.*, Liu, K. H., & Gao, S. S. (2018).
Shear wave splitting and mantle flow in the vicinity of the North American-Caribbean plate boundary in Central America.
235. Yang, Y.*, Liu, L., Liu, K. H., & Gao, S. S. (2018).
Crustal structure and evolution beneath the mid-continent rift constrained by receiver function and gravity analyses.
236. Yang, Q.*, Wang, T., Liu, K. H., & Gao, S. S. (2018).
Imaging crustal structure beneath the southeastern United States with receiver functions.
237. Liu, K. H., & Gao, S. S. (2018).
How pervasive is complex seismic azimuthal anisotropy beneath continents?
238. Ba, K.*, & Gao, S. S. (2018).
Receiver function imaging of the 410 and 660 km discontinuities beneath the Australian continent.
239. Jiang, E.*, Liu, K. H., Gao, Y., & Gao, S. S. (2018).
Spatial and temporal variations of upper crustal anisotropy along the San Jacinto Fault Zone in Southern California: Constraints from shear wave splitting analysis.
240. Shrivastava, A.*, Liu, K. H., & Gao, S. S. (2018).
Upper mantle P wave attenuation tomography beneath the southeastern United States.
241. Sun, M.*, Liu, K. H., & Gao, S. S. (2018).
American Geophysical Union Fall Meeting, Dec. 10-14, Washington, DC.
242. Wang, W., Becker, T. W., Liu, K. H., & Gao, S. S. (2018).
Upper mantle seismic anisotropy as a constraint for mantle flow and continental dynamics of the North American Plate.
243. Liu, K. H., Kong, F., Yu, Y., & Gao, S. S. (2019).
Seismic Azimuthal Anisotropy and Mantle Flow Beneath the Southeastern Tibetan Plateau and Indochina Peninsula.
16th Annual Meeting of the Asia Oceania Geosciences Society.
244. Kong, F., Gao, S. S., Liu, K. H., Ding, W., & Li, J. (2019).
Slab Dehydration and Mantle Upwelling in the Vicinity of the Sumatra Subduction Zone: Evidence from Receiver Function Imaging of Mantle Transition Zone Discontinuities.
245. Gao, S. S., Liu, K. H., Yu, Y., Dahm, H., & Kong, F. (2019).
Effects of Slab Windows on the Physical State of the Upper Mantle: Constraints from Receiver Function Investigations in the Indochina Peninsula and Alaska.

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