Details of the Abstract
| Title of paper | pide: a python-based petrophysical interpretation tool of electrical conductivities of materials from crust to mantle transition zone. |
| List of authors | Özaydın, S., Li, L, Singh, U., Rey, P., Manassero, M. C. |
| Affiliation(s) |
School of Geosciences, University of Sydney, Sydney, Australia.; School of Earth Sciences, University of Western Australia, Perth, Australia.; School of Geosciences, University of Sydney, Sydney, Australia.; School of Geosciences, University of Sydney, Sydney, Australia.; School of Natural Sciences (Physics), University of Tasmania, Hobart, Australia. |
| Summary | pide is a python library designed to compute geophysical parameters, such as electrical conductivity and seismic velocity, based on data from experimental petrology, mineral/rock physics, and thermomechanical modeling studies. It can determine the theoretical electrical conductivity of any earth material referenced in the literature, as well as seismic velocity using the external 'sister' library SAnTex. These theoretical calculations enable users to employ inversion modules to interpret geophysical anomalies compositionally or to convert thermomechanical models into geophysical observables. With spatial mappings of earth materials, preferably loaded from a thermomechanical model, pide can create synthetic models for electrical conductivity and seismic velocity, and generate gravity and magnetic anomalies. |
| Session Keyword | 7.0 Electrical rock properties: computer, laboratory and field experiments, including anisotropy |
| File upload |
7.0_pide__a_python-based_petr_ozaydin.pdf
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