References
- Aboud, E., P. Wameyo, F. Alqahtani, and M. R. Moufti, 2018, Imaging subsurface northern Rahat Volcanic Field, Madinah city, Saudi Arabia, using Magnetotelluric study: Journal of Applied Geophysics, 159, 564–572.
- Brodie, R., and W. Jiang, 2018, Trans-dimensional Monte Carlo inversion of short period magnetotelluric data for cover thickness estimation: Australian Exploration Geoscience Conference.
- Conway, D., J. Simpson, Y. Didana, J. Rugari, and G. Heinson, 2018, Probabilistic Magnetotelluric Inversion with Adaptive Regularisation Using the No-U-Turns Sampler: Pure and Applied Geophysics. Frogtech Geoscience, 2018, North West Queensland SEEBASER Study and GIS:
- Green, D. C., D. D. Hamling, and N. Kyranis, 1963, CR1065: A-P 54P, PPC Elizabeth Springs 1, PPC Beantree 1, PPC Canary 1, PPC Black Mountain 1, Stratigraphic Drilling, Boulia Area, Well Completion Report: QDEX report. deGroot-Hedlin, C., and S. Constable, 1990, Occam’s inversion to generate smooth, two-dimensional models from magnetotelluric data: Geophysics, 55, 1613–1624.
- Heincke, B., M. Jegen, and R. Hobbs, 2006, Joint inversion of MT, gravity and seismic data applied to sub-basalt imaging: SEG Technical Program Expanded Abstracts 2006, 784–789.
- Kress, A. G., 1989, CR20150: PGA Bradley NO. 1, A-P 380P, Well Completion Report: QDEX report.
- Kress, A. G., and S. F. Simeone, 1993, CR24824: A-P 380P, PGA Todd 1, Well Completion Report: QDEX report.
- Krieger, L., and J. R. Peacock, 2014, MTpy: A Python toolbox for magnetotellurics: Computers & Geosciences, 72, 167–175.
- Majcin, D., V. Bezak, R. Klanica, J. Vozar, J. Pek, D. Bilčik, and J. Telecky, 2018, Klippen Belt, Flysch Belt and Inner Western Carpathian Paleogene Basin Relations in the Northern Slovakia by Magnetotelluric Imaging: Pure and Applied Geophysics, 175, 3555–3568.
- Meqbel, N., and O. Ritter, 2015, Joint 3D inversion of multiple electromagnetic datasets: Geophysical Prospecting, 63, 1450– 1467.
- Meqbel, N., G. D. Egbert, P. E. Wannamaker, A. Kelbert, and A. Schultz, 2014, Deep electrical resistivity structure of the northwestern U.S. derived from 3-D inversion of USArray magnetotelluric data: Earth and Planetary Science Letters, 402, 290–304.
- Moorkamp, M., B. Heincke, M. Jegen, A. W. Roberts, and R. W. Hobbs, 2011, A framework for 3-D joint inversion of MT, gravity and seismic refraction data: Geophysical Journal International, 184, 477–493.
- Ogawa, Y., 2002, On Two-Dimensional Modeling Of Magnetotelluric Field Data: Surveys in Geophysics, 23, 251– 273.
- Ogaya, X., J. Alcalde, I. Marzan, J. Ledo, P. Queralt, A. Marcuello, D. Marti, E. Saura, R. Carbonell, and B. Benjumea, 2016, Joint interpretation of magnetotelluric, seismic, and welllog data in Hontomin (Spain): Solid Earth, 7, 943–958.
- Ozaydın, S., S. B. Tank, and M. Karaş, 2018, Electrical resistivity structure at the North-Central Turkey inferred from three-dimensional magnetotellurics: Earth, Planets and Space, 70.
- Tietze, K., and O. Ritter, 2013, Three-dimensional magnetotelluric inversion in practice--the electrical conductivity structure of the San Andreas Fault in Central California: Geophysical Journal International, 195, 130–147.
- Zhdanov, M. S., V. I. Dmitriev, and A. V. Gribenko, 2010, Joint three-dimensional inversion of magnetotelluric and magnetovariational data: Izvestiya, Physics of the Solid Earth, 46, 655–669.