Christopher A. Thom
Affiliations: | 2014-2019 | University of Pennsylvania, Philadelphia, PA, United States |
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Sign in to add mentorDavid Leslie Goldsby | grad student | 2014-2019 | Penn | |
(Scale-Dependent Plasticity and Nanoindentation Creep of Geologic Materials) |
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Publications
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Cao R, Hansen LN, Thom CA, et al. (2021) An apparatus for measuring nonlinear viscoelasticity of minerals at high temperature. The Review of Scientific Instruments. 92: 073902 |
Hansen LN, Wallis D, Breithaupt T, et al. (2021) Dislocation Creep of Olivine: Backstress Evolution Controls Transient Creep at High Temperatures Journal of Geophysical Research: Solid Earth. 126 |
Wallis D, Hansen LN, Kumamoto KM, et al. (2020) Dislocation interactions during low-temperature plasticity of olivine and their impact on the evolution of lithospheric strength Earth and Planetary Science Letters. 543: 116349 |
Thom C, Goldsby D. (2019) Nanoindentation Studies of Plasticity and Dislocation Creep in Halite Geosciences. 9: 79 |
Okamoto KK, Brodsky EE, Thom CA, et al. (2019) The Minimum Scale of Grooving on a Recently Ruptured Limestone Fault Geophysical Research Letters. 46: 11878-11885 |
Hansen LN, Kumamoto KM, Thom CA, et al. (2019) Low-Temperature Plasticity in Olivine: Grain Size, Strain Hardening, and the Strength of the Lithosphere Journal of Geophysical Research. 124: 5427-5449 |
Thom CA, Carpick RW, Goldsby DL. (2018) Constraints on the Physical Mechanism of Frictional Aging From Nanoindentation Geophysical Research Letters. 45 |
Kumamoto KM, Thom CA, Wallis D, et al. (2017) Size effects resolve discrepancies in 40 years of work on low-temperature plasticity in olivine. Science Advances. 3: e1701338 |
Thom CA, Brodsky EE, Carpick RW, et al. (2017) Nanoscale Roughness of Natural Fault Surfaces Controlled by Scale-Dependent Yield Strength Geophysical Research Letters. 44: 9299-9307 |