References
- Abdallah, S., T. Mogi, and H.J. Kim. 2017. Three-dimensional inversion of GREATEM data: application to GREATEM survey data from Kujukuri Beach, Japan. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 10: 4321–4327. doi:10.1109/JSTARS.2017.2672785.
- Anderson, W.L. 1983. Fourier cosine and sine transforms using lagged convolutions in double-precision (subprograms DLAGF0/DLAGF1). U. S. Geol. Surv. Open-file Rep., 83-320.
- Cox, L.H., G.A. Wilson, and M.S. Zhdanov. 2012. 3D inversion of airborne electromagnetic data. Geophysics 77: WB59–69.
- Elliott, P. 1998. The principles and practice of FLAIRTEM. Exploration Geophysics 29: 58–60. doi:10.1071/EG998058.
- Grayver, A.V., R. Streich, and O. Ritter. 2014. 3D inversion and resolution analysis of land-based CSEM data from the Ketzin CO2 storage formation. Geophysics 79: E101–E114. doi:10.1190/geo2013-0184.1.
- Gunderson, B.M., G.A. Newman, and G.W. Hohmann. 1986. Three-dimensional transient electromagnetic responses for a grounded source. Geophysics 51: 2117–30. doi:10.1190/1.1442064.
- Liu, Y., and C. Yin. 2016. 3D inversion for multipulse airborne transient electromagnetic data. Geophysics 81: E401–8. doi:10.1190/geo2015-0481.1.
- Mackie, R.L., J.T. Smith, and T.R. Madden. 1994. Three-dimensional electromagnetic modeling using finite difference equations: the magnetotelluric example. Radio Science 29: 923–35. doi:10.1029/94RS00326.
- McGillivray, P.R., D.W. Oldenburg, R.G. Ellis, and T.M. Habashy. 1994. Calculation of sensitivities for the frequency-domain electromagnetic problem. Geophysical Journal International 116: 1–4. doi:10.1111/j.1365-246X.1994.tb02121.x.
- Mogi, T., K. Kusunoki, H. Kaieda, H. Ito, A. Jomori, N. Jomori, and Y. Yuuki. 2009. Grounded electrical-source airborne transient electromagnetic (GREATEM) survey of Mount Bandai, north-eastern Japan. Exploration Geophysics 40: 1–7. doi:10.1071/EG08115.
- Newman, G.A. 1989. Deep transient electromagnetic soundings with a grounded source over near-surface conductors. Geophysical Journal International 98: 587–601. doi:10.1111/j.1365-246X.1989.tb02292.x.
- Newman, G.A., and D.L. Alumbaugh. 1995. Frequency-domain modeling of airborne electromagnetic responses using staggered finite differences. Geophysical Prospecting 43: 1021–42. doi:10.1111/j.1365-2478.1995.tb00294.x.
- Sasaki, Y., M.J. Yi, J. Choi, and J.S. Son. 2015. Frequency and time domain three-dimensional inversion of electromagnetic data for a grounded-wire source. Journal of Applied Geophysics 112: 106–114. doi:10.1016/j.jappgeo.2014.09.016.
- Smith, J.T. 1996. Conservative modeling of 3-D electromagnetic fields: Part II. Biconjugate gradient solution and an accelerator. Geophysics 61: 1319–24. doi:10.1190/1.1444055.
- Smith, R.S., A.P. Annan, and P.D. McGowan. 2001. A comparison of data from airborne, semi-airborne, and ground electromagnetic systems. Geophysics 66: 1379–85. doi:10.1190/1.1487084.
- Spies, B.R., and P.D. Parker. 1984. Limitation of large-loop transient electromagnetic surveys in conductive terrains. Geophysics 49: 902–12. doi:10.1190/1.1441735.
- Vallee, M.A., R.S. Smith, and P. Keating. 2011. Metalliferous mining geophysics – state of the art after a decade in the new millennium. Geophysics 76: W31–50. doi:10.1190/1.3587224.
- Yang, D., and D.W. Oldenburg. 2012. Three-dimensional inversion of airborne time-domain electromagnetic data with applications to a porphyry deposit. Geophysics 77: B23–B34.