Terry E. Tullis
Dept Earth, Env, Planet Sci
Brown University
Brown University
Professor
Expertise: Experimental Rock Deformation / Earthquake modeling
About Me
Publications
No bio available.
SCEC Board of Directors, Member (2002 - 2006)
SCEC Participation
SCEC Science Planning Committee, Group Leader (2002 - 2016)SCEC Board of Directors, Member (2002 - 2006)
Bhattacharya, P., Rubin, A. M., Tullis, T. E., Beeler, N. M., & Okazaki, K. (2019). Where did the time go? The remarkable slip-sensitivity of friction at near-zero slip rates. Proceedings of the National Academy of Sciences, (in preparation). SCEC Contribution 9952
Beeler, N. M., Tullis, T. E., & Hirth, G. H. (2015). On the depth extent of co-seismic rupture. Bulletin of the seismological society of america, (in preparation). SCEC Contribution 6163
Tullis, T. E. (2014). Friction of Rock at Earthquake Slip Rates, (submitted). SCEC Contribution 1916
Bhattacharya, P., Tullis, T. E., Rubin, A. M., Beeler, N. M., & Badt, N. Z. (2024, 09). The gradual evolution of friction following a normal stress step reflects changes in contact strength, not contact area. Poster Presentation at 2024 SCEC Annual Meeting. SCEC Contribution 13858
Bhattacharya, P., Rubin, A. M., Tullis, T. E., Beeler, N. M., & Okazaki, K. (2022, 09). Experimentally Observed Strength Evolution in Rate and State Friction is Much Better Fit With a Slip Formulation Than an Aging Formulation. Poster Presentation at 2022 SCEC Annual Meeting. SCEC Contribution 12419
Tullis, T. E., & Meyers, C. (2022, 09). Progress Report 3 on Addition of a High-Speed Drive to High-Pressure, Rotary-Shear Apparatus. Poster Presentation at 2022 SCEC Annual Meeting. SCEC Contribution 12157
Badt, N. Z., Tullis, T. E., Hirth, G., & Huber, C. (2021, 08). The effects of temperature and pressure on thermal pressurization in localized fault zones. Poster Presentation at 2021 SCEC Annual Meeting. SCEC Contribution 11505
Badt, N. Z., Tullis, T. E., Hirth, G., & Goldsby, D. L. (2020). Thermal Pressurization Weakening in Laboratory Experiments. Journal of Geophysical Research: Solid Earth, 125(5). doi: 10.1029/2019JB018872. SCEC Contribution 9941
Badt, N. Z., Tullis, T. E., & Hirth, G. (2019, 08). Thermal pressurization in experimental faults. Poster Presentation at 2019 SCEC Annual Meeting. SCEC Contribution 9567
Badt, N. Z., Tullis, T. E., & Hirth, G. (2018, 08). Thermal pressurization evolution with total slip. Poster Presentation at 2018 SCEC Annual Meeting. SCEC Contribution 8757
Tullis, T. E. (2018, 08). Progress Report 2 on Addition of a High-Speed Drive to High-Pressure, Rotary-Shear Apparatus. Poster Presentation at 2018 SCEC Annual Meeting. SCEC Contribution 8560
Badt, N. Z., Tullis, T. E., & Hirth, G. (2017, 08). Experimental Study of Thermal Pressurization Weakening and the Role of Fault Roughness. Poster Presentation at 2017 SCEC Annual Meeting. SCEC Contribution 7712
Tullis, T. E. (2016, 08). Progress Report on Addition of a High-Speed Drive to High-Pressure, Rotary-Shear Apparatus. Poster Presentation at 2016 SCEC Annual Meeting. SCEC Contribution 6782
Barall, M., & Tullis, T. E. (2016). The Performance of Triangular Fault Elements in Earthquake Simulators. Seismological Research Letters, 87(1), 164-170. SCEC Contribution 6015
Beeler, N. M., Tullis, T. E., Junger, J., Kilgore, B. D., & Goldsby, D. L. (2014). Laboratory constraints on models of earthquake recurrence. Journal of Geophysical Research, 119, 8770–8791. SCEC Contribution 1811
Tullis, T. E., Richards-Dinger, K. B., Barall, M., Dieterich, J. H., Field, E. H., Heien, E. M., Kellogg, L. H., Pollitz, F. F., Rundle, J. B., Sachs, M. K., Turcotte, D. L., Ward, S. N., & Burak Yikilmax, M. (2012). A Comparison among Observations and Earthquake Simulator Results for the allcal2 California Fault Model. Seismological Research Letters, 83(6), 994-1006. doi: 10.1785/0220120094. SCEC Contribution 6246
Tullis, T. E. (2012). Preface to the Focused Issue on Earthquake Simulators. Seismological Research Letters, 83(6), 957-958. doi: 10.1785/0220120122. SCEC Contribution 1658
Tullis, T. E., Richards-Dinger, K. B., Barall, M., Dieterich, J. H., Field, E. H., Heien, E. M., Kellogg, L. H., Pollitz, F. F., Rundle, J. B., Sachs, M. K., Turcotte, D. L., Ward, S. N., Yikilmaz, M. B., & Zielke, O. (2012). Generic Earthquake Simulator. Seismological Research Letters, 83(6), 959-963. doi: 10.1785/0220120093. SCEC Contribution 1599
Goldsby, D. L., & Tullis, T. E. (2011). Flash heating leads to low strength of crustal rocks at earthquake slip rates. Science, 334, 216-218. doi: 10.1126/science.1207902. SCEC Contribution 1621
Beeler, N. M., Tullis, T. E., & Goldsby, D. L. (2008). Constitutive relationships and physical basis of fault strength due to flash heating. Journal of Geophysical Research, 113(B01401). doi: 10.1029/2007JB004988. SCEC Contribution 1023
Tullis, T. E., Bürgmann, R., Cocco, M., Hirth, G. H., King, G. C., Oncken, O., Otsuki, K., Rice, J. R., Rubin, A. M., Segall, P., Shapiro, S., & Wibberley, C. A. (2007). Group Report: Rheology of Fault Rocks and Their Surroundings. In M. Handy, G. H. Hirth, & N. Hovius (Eds.), Tectonic Faults: Agents of Change on a Dynamic Earth, (, pp. 183-204) Cambridge, USA: MIT Press SCEC Contribution 1392
Tullis, T. E., Bürgmann, R., Cocco, M., Hirth, G. H., King, G. C., Oncken, O., Otsuki, K., Rice, J. R., Rubin, A. M., Segall, P., Shapiro, S., & Wibberley, C. A. (2007). Rheology of fault rocks and their surroundings. Cambridge, USA: MIT Press. SCEC Contribution 1054
Tullis, T. E. (2007). Friction of Rock at Earthquake Slip Rates. Oxford, : Elsevier. SCEC Contribution 1053
Beeler, N. M., Tullis, T. E., Kronenberg, A., & Reinen, L. (2007). The instantaneous rate dependence in low temperature laboratory rock friction and rock deformation experiments. Journal of Geophysical Research, 112(B07310). doi: 10.1029/2005JB003772. SCEC Contribution 1020
Last updated Sep 19, 2024.