Hiroyuki Noda

Division of Geological and Planetary Sciences
California Institute of Technology
Sc.D.

Expertise: Tectonophysics
 
 
About Me Publications
Noda, H., Lapusta, N., & Kanamori, H. (2013). Comparison of average stress drop measures for ruptures with heterogeneous stress change and implications for earthquake physics. Geophysical Journal International, 193(3), 1691-1712. doi: 10.1093/gji/ggt074. SCEC Contribution 1703
Noda, H., & Lapusta, N. (2013). Creeping fault segments can join earthquake rupture through dynamic weakening. Nature, 493(7433). doi: 10.1038/nature11703. SCEC Contribution 1675
Noda, H., Lapusta, N., & Rice, J. R. (2011). Earthquake sequence calculations with dynamic weakening mechanisms. , : Springer. SCEC Contribution 1491
Noda, H., & Lapusta, N. (2010). Three‚Äźdimensional earthquake sequence simulations with evolving temperature and pore pressure due to shear heating: Effect of heterogeneous hydraulic diffusivity. Journal of Geophysical Research, 115. doi: 10.1029/2010JB007780. SCEC Contribution 1432
Rice, J. R., Dunham, E. M., & Noda, H. (2009). Thermo- and hydro-mechanical processes along faults during rapid slip. In Y. Hatzor, J. Sulem, & I. Vardoulakis (Eds.), Meso-Scale Shear Physics in Earthquake and Landslide Mechanics, (, pp. 3-16) , : CRC Press (Taylor & Francis Group) SCEC Contribution 1276
Noda, H., Dunham, E. M., & Rice, J. R. (2008). Earthquake Ruptures with Thermal Weakening and the operation of Major Faults at Low Overall Stress Levels. Journal of Geophysical Research,. SCEC Contribution 1228

Last updated Aug 20, 2015.