Stefan Nielsen
Affiliations: | physics | University of California, Santa Barbara, Santa Barbara, CA, United States |
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Publications
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Snell T, Paola ND, Hunen Jv, et al. (2020) Modelling fluid flow in complex natural fault zones : implications for natural and human-induced earthquake nucleation. Earth and Planetary Science Letters. 530: 115869 |
Guérin-Marthe S, Nielsen S, Bird R, et al. (2019) Earthquake Nucleation Size: Evidence of Loading Rate Dependence in Laboratory Faults. Journal of Geophysical Research. Solid Earth. 124: 689-708 |
Cornelio C, Spagnuolo E, Di Toro G, et al. (2019) Mechanical behaviour of fluid-lubricated faults. Nature Communications. 10: 1274 |
Jayeoba A, Mathias SA, Nielsen S, et al. (2019) Closed-form equation for subsidence due to fluid production from a cylindrical confined aquifer Journal of Hydrology. 573: 964-969 |
Murphy S, Toro GD, Romano F, et al. (2018) Tsunamigenic earthquake simulations using experimentally derived friction laws Earth and Planetary Science Letters. 486: 155-165 |
Nielsen S. (2017) From slow to fast faulting: recent challenges in earthquake fault mechanics. Philosophical Transactions of the Royal Society A. 375: 20160016 |
Vannucchi P, Spagnuolo E, Aretusini S, et al. (2017) Past seismic slip-to-the-trench recorded in Central America megathrust. Nature Geoscience. 10: 935-940 |
Nielsen S, Spagnuolo E, Violay M, et al. (2016) G: Fracture energy, friction and dissipation in earthquakes. Journal of Seismology. 20: 1187-1205 |
Murphy S, Scala A, Herrero A, et al. (2016) Shallow slip amplification and enhanced tsunami hazard unravelled by dynamic simulations of mega-thrust earthquakes. Scientific Reports. 6: 35007 |
Spagnuolo E, Nielsen S, Violay M, et al. (2016) An empirically based steady state friction law and implications for fault stability. Geophysical Research Letters. 43: 3263-3271 |