[AKM11] Alireza Aghasi, Misha Kilmer, and Eric L. Miller. Parametric Level Set Methods for Inverse Problems. SIAM Journal on Imaging Sciences, 4(2):618–650, jan 2011. URL: http://epubs.siam.org/doi/abs/10.1137/100800208, doi:10.1137/100800208.
[All07] M Allard. On the origin of the HTEM species. In B Milkereit, editor, Advances in airborne geophysics, Proceedings of Exploration 07: Fifth Decennial International Conference on Mineral Exploration, 355–374. 2007.
[AAM+16] Pedro Alvarez, Amanda, Lucy MacGregor, Francisco Bolivar, Robert Keirstead, and Thomas Martin. Reservoir properties prediction using CSEM, pre-stack seismic and well log data: Case Study in the Hoop Area, Barents Sea, Norway. 2016.
[ABolivarDiLucaS15] Pedro Alvarez, Francisco Bolívar, Mario Di Luca, and Trino Salinas. Multi-attribute rotation scheme: A tool for reservoir property prediction from seismic inversion attributes. Interpretation, 3(4):SAE9–SAE18, 2015. URL: http://library.seg.org/doi/10.1190/INT-2015-0029.1, doi:10.1190/INT-2015-0029.1.
[Ann07] A P Annan. Near-Surface Geophysics, 11. Ground-Penetrating Radar. Society of Exploration Geophysicists, 2007. URL: http://library.seg.org/doi/abs/10.1190/1.9781560801719.ch11, doi:10.1190/1.9781560801719.ch11.
[Arc90] G E Archie. The Electrical Resistivity Log as an Aid in Determining Some Reservoir Characteristics. Transactions of the AIME, 146:54–62, 1990. doi:10.2118/942054-G.
[AC04] E Auken and A V Christiansen. Layered and laterally constrained 2D inversion of resistivity data. Geophysics, 69(3):752–761, 2004.
[Bar96] Dietrich Barsch. Rockglaciers: indicators for the present and former geoecology in high mountain environments. Volume 16. Springer Science & Business Media, 1996.
[BBT01] T. Bell, B. Barrow, and Miller J. T. Subsurface discrimination using electromagnetic induction sensors. IEEE Transactions on Geoscience and Remote Sensing, 39:1286–1293, 2001.
[BBTK01] T. Bell, B. Barrow, Miller J. T., and D. Keiswetter. Time and frequency domain electromagnetic induction signatures of unexploded ordnance. Subsurface Sensing Technologies and Applications, 2:153–175, 2001.
[BEF84] J C Bezdek, R Ehrlich, and W Full. Fcm: the fuzzy c-means clustering algorithm. Computers and Geosciences, 1984.
[BSR07] D D Blackwell, R P Smith, and M C Richards. Exploration and development at Dixie Valley, Nevada: Summary of DOE studies. In Thirty-Second Workshop on Geothermal Reservoir Engineering. 2007.
[BWBG99] D D Blackwell, K W Wisian, D Benoit, and B Gollan. Structure of the Dixie Valley Geothermal System, a “typical” Basin and Range geothermal system, from thermal and gravity data. In World Geothermal Congress, 525–531. 1999.
[BPK01] W Boyko, N R Paterson, and K Kwan. AeroTEM: system characteristics and field results. The Leading Edge, 20(10):1130–1138, 2001.
[Bro13] P L Broughton. Devonian salt dissolution-collapse breccias flooring the Cretaceous Athabasca oil sands deposit and development of lower McMurray Formation sinkholes, northern Alberta Basin, Western Canada. Sedimentary Geology, 283:57–82, 2013.
[BLvB09] K L Buchan, A N LeCheminant, and O van Breemen. Paleomagnetism and U-Pb geochronology of the Lac de Gras diabase dyke swarm, Slave Province Canada: Implications for relative drift of Slave and Superior provinces in the Paleoproterozoic. Canadian Journal of Earth Sciences, 46:361–379, 2009. NRC Research Press.
[BMZ+13] Thomas Buchli, Kaspar Merz, Xiaohai Zhou, Wolfgang Kinzelbach, and Sarah M Springman. Characterization and monitoring of the Furggwanghorn rock glacier, Turtmann Valley, Switzerland: results from 2010 to 2012. Vadose Zone Journal, 2013.
[Bur14] C Burge. No Title. In PDAC Prospectors and Developers Convention. Toronto, Canada, 2014.
[BDG99] K C Burger, J J Degenhardt, and J R Giardino. Engineering geomorphology of rock glaciers. Geomorphology, 31(1):93–132, 1999.
[Bus82] G Buselli. The effect of near-surface superparamagnetic material on electromagnetic measurements. Geophysics, 47(9):1315–1324, 1982.
[CRLC15] J A Carlson, P J Ravenscroft, C Lavoie, and J Cumming. Ekati diamond mine, Northwest Territories, Canada. NI 43-101 Technical Report, Dominion Diamond Coportation, March 2015.
[CH12] J. Chen and G. M. Hoversten. Joint inversion of marine seismic AVA and CSEM data using statistical rock physics and Markov random fields. Geophysics, 77(1):R65–R80, 2012. doi:10.1190/geo2011-0219.1.
[Cla83] D A Clark. Comments on magnetic petrophysics. Bulletin of the Australian Society of Exploration Geophysicists, 14:49 – 62, 1983. doi:10.1071/EG983049.
[Cla14] D A Clark. Methods for determining remanent and total magnetisations of magnetic sources - a review. Exploration Geophysics, 14(4):271–304, 2014.
[CE91] D. A. Clark and D. W. Emerson. Notes on rock magnetization characteristics in applied geophysical studies. Exploration Geophysics, 22:547–555, 1991.
[CKH+15] Rowan Cockett, Seogi Kang, Lindsey J Heagy, Adam Pidlisecky, and Douglas W Oldenburg. SimPEG: An open source framework for simulation and gradient based parameter estimation in geophysical applications. Computers & Geosciences, 85, Part A:142–154, 2015. URL: http://www.sciencedirect.com/science/article/pii/S009830041530056X, doi:10.1016/j.cageo.2015.09.015.
[CC41] Kenneth S. Cole and Robert H. Cole. Dispersion and Absorption in Dielectrics I. Alternating Current Characteristics. The Journal of Chemical Physics, 9(4):341–351, 1941. URL: http://scitation.aip.org/content/aip/journal/jcp/9/4/10.1063/1.1750906.
[CMCF13] D. Colombo, G. McNeice, E. S. Curiel, and A. Fox. Full tensor CSEM and MT for subsalt structural imaging in the Red Sea: Implications for seismic and electromagnetic integration. The Leading Edge, 32(4):436–449, 2013.
[CMR+14] D. Colombo, G. McNeice, N. Raterman, M. Zinger, D. Rovetta, and E. S. Curiel. Exploration beyond seismic: The role of electromagnetics and gravity gradiometry in deep water subsalt plays of the Red Sea. Interpretation, 2(3):SH33–SH53, 2014.
[CMR+16] Daniele Colombo, Gary McNeice, Diego Rovetta, Ernesto Sandoval-Curiel, Ersan Turkoglu, and Armando Sena. High-resolution velocity modeling by seismic-airborne TEM joint inversion: A new perspective for near-surface characterization. The Leading Edge, 35(11):977–985, 2016.
[CM15] A. G. Conly and L. C. Moore. Geology, ore characteristics, and origin or the albany graphite deposit. In G. J. Simandl and M. Neetz, editors, Symposium on Strategic and Critical Materials Proceedings, 173–185. Victoria, British Columbia, November 13-14 2015. British Columbia Ministry of Energy and Mines.
[Con99] P. A. Connolly. Elastic Impedance. The Leading Edge, 18(4):438–452, 1999. doi:10.1190/1.1438307.
[Con10] Steven C. Constable. Ten years of marine CSEM for hydrocarbon exploration. Geophysics, 75(5):75A67, 2010. doi:10.1190/1.3483451.
[CPC87] Steven C. Constable, Robert L. Parker, and Catherine G. Constable. Occam’s inversion: A practical algorithm for generating smooth models from electromagnetic sounding data. 1987. doi:10.1190/1.1442303.
[CAB+79] Frederick A Cook, Dennis S Albaugh, Larry D Brown, Sidney Kaufman, Jack E Oliver, and Robert D Hatcher. Thin-skinned tectonics in the crystalline southern Appalachians; COCORP seismic-reflection profiling of the Blue Ridge and Piedmont. Geology, 7(12):563–567, 1979.
[CPScottSmith06] H Coopersmith, J Pell, and B Scott Smith. The importance of kimberlite geology in diamond deposit evaluation: A case study from the DO27/DO18 kimberlite, NWT, Canada. In 2006 Kimberlite Emplacement Workshop, Saskatoon. 2006.
[Cow16] D. C. Cowan. Forward modeling and inversion of viscous remanent magnetization responses in the time domain. Master’s thesis, Univ. of British Columbia, 2016.
[CJM15] B R Cowie, B James, and B Mayer. Distribution of total dissolved solids in the McMurray Formation water in the Athabasca oil sands region, Alberta, Canada: Implications for regional hydrogeology and resource development. American Association of Petroleum Geologists Bulletin, 99:77–90, 2015.
[CFO04] J Cristall, C Farquharson, and D Oldenburg. Airborne Electromagnetic Inversion Applied to Oil Sands Exploration. In 2004 CSEG National Convention. 2004.
[DJT92] M Dabas, A Jolivet, and A Tabbagh. Magnetic-Susceptibility and Viscosity of Soils in a Weak Time-Varying Field. Geophysical Journal International, 108(1):101–109, 1992.
[Dam69] C N G Dampney. The equivalent source technique. Geophysics, 34:39–53, 1969.
[DL06] Neal Dannemiller and Yaoguo Li. A new method for determination of magnetization direction. Geophysics, 71(6):L69–L73, 2006. URL: http://library.seg.org/doi/abs/10.1190/1.2356116, doi:10.1190/1.2356116.
[Das06] Y. Das. Effects of soil electromagnetic properties on metal detectors. IEEE Transactions on Geoscience and Remote Sensing, 44(6):1444–1453, 2006.
[Dev16] S G R Devriese. Detecting and imaging time-lapse conductivity changes using electromagnetic methods. PhD thesis, University of British Columbia, 2016.
[DO15] S G R Devriese and D W Oldenburg. Time-lapse three-dimensional electromagnetic inversion of growth-impeded SAGD steam chambers. In SEG Technical Program Expanded Abstracts 2015, 2842–2847. 2015.
[DO16a] S G R Devriese and D W Oldenburg. Feasibility of electromagnetic methods to detect and image steam-assisted gravity drainage steam chambers. Geophysics, 81:E227–E241, 2016.
[DO16b] S G R Devriese and D W Oldenburg. From exploration to reclamation: using EM methods at SAGD sites in the Athabasca oil sands. In SEG Technical Program Expanded Abstracts 2016, accepted. 2016.
[DOS12] S G R Devriese, D W Oldenburg, and J D Shoffner. Three-Dimensional Inversion of ZTEM Data at the Elevenmile Canyon Geothermal System, Nevada. In GRC Transactions. 2012.
[DDO16] S G. R. Devriese, K Davis, and D W Oldenburg. Inversion of airborne geophysics over the Tli Kwi Cho kimberlite complex, Part I: Potential fields. Interpretation, 2016.
[DDO17] Sarah G R Devriese, Kritofer Davis, and Douglas W Oldenburg. Inversion of airborne geophysics over the do-27/do-18 kimberlites - part 1: potential fields. Interpretation, 5(3):299–311, August 2017.
[DKS99] B J Doyle, K Kivi, and B H Scott Smith. The Tli Kwi Cho (DO27 and DO18) Diamondiferous Kimberlite Complex, Northwest Territories, Canada. In Proceedings of the VIIth International Kimberlite Conference, 194–204. 1999.
[DM10] Z. Du and L. MacGregor. Reservoir Characterization From Joint Inversion of Marine CSEM And Seismic AVA Data Using Genetic Algorithms: a Case Study Based On the Luva Gas Field. In SEG Annual Meeting. 2010.
[Dun87] A. C. Duncan. Interpretation of down-hole transient M data current filaments. Exploration Geophysics, 44:6–15, 1987.
[DOzdemir97] David J Dunlop and Özden Özdemir. Rock Magnetism. Cambridge University Press, 1997.
[DP87] A S Dyke and V K Prest. Late Wisconsinan and Holocene History of the Laurentide Ice Sheet. Geographie Physique et Qauternaire, 41:237–263, 1987.
[ELN78] R N Edwards, H Lee, and M N Nabighian. On the theory of magnetometric resistivity (MMR) methods. Geophysics, 43:1176–1203, 1978.
[EB08] T Eggleston and K Brisebois. DO-27 Diamond Project, Northwest Territories, Canada. NI 43-101 Report, AMEC, August 2008.
[EBP14] T Eggleston, K Brisebois, and J Pell. Lac de Gras Project Northwest Territories, Canada. NI 43-101 Technical Report, Peregrine Diamonds Ltd, 2014.
[EKE04] H El-Kaliouby and E Eldiwany. Transient electromagnetic responses of 3D polarizable body. Geophysics, 69(2):426–430, 2004. doi:10.1190/1.1707062.
[EEJ+02] S Ellingsrud, T Eidesmo, S Johansen, M C Sinha, L M MacGregor, and S Constable. Remote sensing of hydrocarbon layers by seabed logging (SBL): results from a cruise offshore Angola. The Leading Edge, 21(10):972, 2002.
[EdWM12] Robert G Ellis, Barry de Wet, and Ian N Macleod. Inversion of magnetic data for remanent and induced sources. ASEG Extended Abstracts, 2012(1):1–4, 2012.
[EMMD14] F Engermark, Johan Mattson, Allan McKay, and Zhijun Du. Towed streamer em comes of age. First Break, 2014.
[FO93] C G Farquharson and D W Oldenburg. Inversion of time-domain electromagnetic data for a horizontally layered Earth. Geophys. J. Int., 114:433–442, 1993.
[FOR03] C G Farquharson, D W Oldenburg, and P S Routh. Simultaneous 1D inversion of loop-loop electromagnetic data for magnetic susceptibility and electrical conductivity. Geophysics, 68(6):1857–1869, November-December 2003.
[FHC+11] J E Faulds, N H Hinz, M F Coolbaugh, P H Cashman, C Kratt, G Dering, J Edwards, B Mayhew, and H McLachlan. Assessment of Favorable Structural Settings of Geothermal Systems in the Great Basin, Western USA. In GRC Transactions. 2011.
[Fis14] Steve Fiscor. Mineral Exploration Strategies. Engineering and Mining Journal, 215(5):32, 2014.
[Fle08] Daniel Fleisch. A Student’s guide to Maxwell’s equations. Cambridge University Press, 2008.
[FPO09] Carlos Flores and Sergio A. Peralta-Ortega. Induced polarization with in-loop transient electromagnetic soundings: A case study of mineral discrimination at El Arco porphyry copper, Mexico. Journal of Applied Geophysics, 68(3):423–436, 2009. doi:10.1016/j.jappgeo.2009.03.009.
[FKT07] K Ford, P Keating, and M D Thomas. Overview of geophysical signatures associated with Canadian ore deposits. Mineral deposits of CanadaâA synthesis of major deposit-types, district metallogeny, the evolution of geological provinces, and exploration methods, 5:939–970, 2007.
[FHC+14a] D Fournier, L Heagy, N Corcoran, D Cowan, S G R Devriese, D Bild-Enkin, K Davis, S Kang, D Marchant, M S McMillan, M Mitchell, G Rosenkjar, D Yang, and D W Oldenburg. Multi-EM systems inversion - Towards a common conductivity model for the Tli Kwi Cho complex. In SEG Technical Program Expanded Abstracts, 1795–1799. 2014.
[FHC+14b] D Fournier, L Heagy, N Corcoran, D Cowan, S G R Devriese, D Bild-Enkin K Davis, S Kang, D Marchant, M S McMillan, M Mitchell, G Rosenkjar, D Yang, and D W Oldenburg. Multi-EM systems inversion - Towards a common conductivity model for the Tli Kwi Cho complex. In SEG Technical Program Expanded Abstracts 2014, 1795–1799. 2014.
[FKMO16] D Fournier, S Kang, M S Michael, and D W Oldenburg. Inversion of airborne geophysics over the Tli Kwi Cho kimberlite complex, Part II: Electomagnetism. Interpretation, 2016.
[FKMO17] Dominique Fournier, Seogi Kang, Micheal S. McMillan, and Douglas W Oldenburg. Inversion of airborne geophysics over the do-27/do-18 kimberlites - part 2: electromagnetics. Interpretation, 5(3):397–409, August 2017.
[FB07] B R Frost and J S Beard. On silica activity and serpentinization. Journal of Petrology, 48:1351–1368, 2007.
[GAH12] Guozhong Gao, Aria Abubakar, and Tarek M. Habashy. Joint petrophysical inversion of electromagnetic and full-waveform seismic data. Geophysics, 77(3):WA3, 2012. doi:10.1190/geo2011-0157.1.
[GB00] D D Blackwell B Golan and D Beniot. Thermal regime in the Dixie Valley geothermal system. In World Geothermal Congress, 991–996. 2000.
[GLS15] D Gray, M Lawolr, and R Stone. Cobre Panama Project: Technical report (NI 43-101) for First Quantum Minerals Ltd. Technical Report, Colon Province, Republic of Panama, 2015.
[Gri99] David J Griffiths. Introduction to electrodynamics. Prentice-Hall, 1999.
[GS15] Robert E. Grimm and David E. Stillman. Field test of detection and characterisation of subsurface ice using broadband spectral-induced polarisation. Permafrost and Periglacial Processes, 26:28–38, 2015.
[HOS07] E Haber, D W Oldenburg, and R Shekhtman. Inversion of time domain three-dimensional electromagnetic data. Geophysical Journal International, 171:550–564, 2007.
[HS14] E Haber and C Schwarzbach. Parallel inversion of large-scale airborne time-domain electromagnetic data with multiple OcTree meshes. Inverse Problems, 30(5):1–28, 2014.
[Hab14] Eldad Haber. Computational Methods in Geophysical Electromagnetics. Volume 1. SIAM, 2014.
[HMujezinovicR13] E. Halland, L. Mujezinović, and F. Riis. CO2 Storage Atlas - Barents Sea. 2013.
[Han92] Per Christian Hansen. Analysis of discrete ill-posed problems by means of the L-curve. SIAM Review, 34(4):561–580, 1992.
[HHSP06] M Harder, C Hetman, B Scott Smith, and J Pell. Geology of the DO27 Pipe: A pyroclastic kimberlite in the Lac de Gras province, NWT, Canada. In 8th International Kimberlite Conference. 2006.
[HHBP08] M Harder, C M Hetman, M C Baumgartner, and J Pell. The Preliminary Geology of the DO-18 Kimberlite, Lac de Gras Kimberlite Province, Canada. In 9th International Kimberlite Conference. 2008.
[HHSP08] M Harder, C M Hetman, B H Scott Smith, and J Pell. The evolution of geological models for the DO-27 kimberlite, NWT, Canada: implications for evaluation. In 9th International Kimberlite Conference. 2008.
[HScottSmithHP09] M Harder, B H Scott Smith, C M Hetman, and J Pell. The evolution of geological models for the DO-27 kimberlite, NWT, Canada: Implications for evaluation. Lithos, 112:61–72, 2009.
[Har89] R B Hargraves. Paleomagnetism of mesozoic kimberlites in Southern Africa and the Cretaceous apparent polar wander curve for Africa. Journal of Geophysical Research, 94(B2):1851–1866, 1989.
[HDM+09] Peter Harris, Zhijun Du, Lucy MacGregor, Wiebke Olsen, Rone Shu, and Richard Cooper. Joint interpretation of seismic and CSEM data using well log constraints: An example from the Luva Field. First Break, 27(MAY):73–81, 2009.
[HBC+11] E L Helton, J W Bell, P H Cashman, M Lazaro, and S Alm. Structural analysis of Southern Dixie Valley using LiDAR and low-sun-angle aerial photography, NAS Fallon Geothermal Exploration Project, Dixie Valley, Nevada. Geothermal Resources Council Transactions, 35:811–815, 2011.
[Her93] Heinrich Hertz. Electric waves: being researches on the propagation of electric action with finite velocity through space. Dover Publications, 1893.
[HJ97] R H Hess and G L Johnson. County digital geologic maps of Nevada. Nevada Bureau of Mines and Geology Open-File Report 97-1, CR-ROM, 1:250,000, 1997.
[Hic15] S. Hickey. Albany graphite air and ground 3d tdem inversions: internal presentation. Technical Report, Mira Geosciences Ltd. on the behalf of Zenyatta Ventures Ltd., 2015. for Zenyatta Ventures Ltd., 83 pages.
[HJMcEwan1+08] K.L. Holland, I.D. Jolly, K.L. McEwan1, T.M. Doody, M. White, V. Berens, and N. Souter. The âBookpurnong Experimentâ: will groundwater management and flooding improve the health of the floodplain vegetation? 2008.
[HB13] P Hollings and M Baker. Cobre Panama geochronology update: AMIRA project P1060, report to Minera Panama S. A. Technical Report, Cobre Panama geochronology, 2013.
[Hol12] E Holtham. 3D inversion of natural source electromagnetic data. PhD thesis, University of British Columbia, 2012.
[HO10a] E Holtham and D W Oldenburg. Three-dimensional inversion of ZTEM data. Geophysical Journal International, 182:168–182, 2010.
[HO12] E Holtham and D W Oldenburg. Large-scale inversion of ZTEM data. Geophysics, 77:WD37–WB45, 2012.
[HO10b] Elliot Holtham and Douglas W Oldenburg. Three-dimensional inversion of ZTEM data. Geophysical Journal International, 182(1):168–182, 2010.
[HOO08] Elliot Holtham, Douglas W Oldenburg, and Others. Three-dimensional forward modelling and inversion of Z-TEM data. In 2008 SEG Annual Meeting. Society of Exploration Geophysicists, 2008.
[Hos10] Terence Hoschke. Geophysical signatures of copper-gold porphyry and epithermal gold deposits, and implications for exploration. PhD thesis, University of Tasmania, 2010.
[Hum08] M Humphries. North American Oil Sands: History of Development, Prospects for Future. Technical Report, Congressional Research Service, 2008.
[HubertLL+15] Juliane Hübert, Benjamin M Lee, Lijuan Liu, Martyn J Unsworth, Jeremy P Richards, Bahman Abbassi, Li Zhen Cheng, Douglas W Oldenburg, Jean M Legault, and Mark Rebagliati. Three-dimensional imaging of a Ag-Au-rich epithermal system in British Columbia, Canada, using airborne z-axis tipper electromagnetic and ground-based magnetotelluric data. Geophysics, 81(1):B1—–B12, 2015.
[HyerJrgensenS+15] A. S. Høyer, F. Jørgensen, P. B E Sandersen, A. Viezzoli, and I. Møller. 3D geological modelling of a complex buried-valley network delineated from borehole and AEM data. Journal of Applied Geophysics, 122:94–102, 2015.
[Inc15] RPA Inc. Technical report on the preliminary economic assessment of the albany graphite project, northern ontario, canada: ni 43-101. Technical Report Project #2248, 224 p., RPA Inc., 2015. report prepared for Zenyatta Ventures Ltd.
[ILF11] Carlos Izarra, Jean Legault, and Cristiano Fontura. ZTEM airborne tipper AFMAG results over the Copaquire porphyry, northern Chile. In 12th International Congress of the Brazilian Geophysical Society. 2011.
[JW04] J Jansen and K Witherly. The Tli Kwi Cho Kimberlite Complex, Northwest Territories, Canada: A Geophysical Case Study. In 2004 SEG Annual Meeting. 2004.
[JD98] Joel C Jansen and Buddy J Doyle. The Tli Kwi Cho kimberlite complex, Northwest Territories, Canada: A geophysical post mortem. In NWMA Pratical Geophysics Short Course. Spokane, Washington, USA, 1998. Northwest Mining Association.
[Joh92] D A John. Late Cenozoic Volcanotectonic Evolution of the Southern Stillwater Range, West-Central Nevada. In Structure, tectonics, and mineralization of the Walker Lane: Reno, Nevada, pages 64–92. Geological Society of Nevada, 1992.
[KCHO15] S Kang, R Cockett, L Heagy, and D Oldenburg. Moving between dimensions in electromagnetic inversions. In SEG Technical Program Expanded Abstracts 2015, SEG Technical Program Expanded Abstracts, 5000–5004. Society of Exploration Geophysicists, aug 2015. doi:10.1190/segam2015-5930379.1.
[KOYM14] S Kang, D Oldenburg, D Yang, and D Marchant. On recovering induced polarization information from airborne time domain EM data. In SEG Technical Program Expanded Abstracts 2014, 1785–1789. Society of Exploration Geophysicists, aug 2014. doi:10.1190/segam2014-1381.1.
[KOM15] S Kang, D W Oldenburg, and S M McMillan. 3D IP Inversion of Airborne EM data at Tli Kwi Cho. In 24th International Geophysical Conference and Exhibition, Perth, Australia. 2015.
[KFO17] Seogi Kang, Dominique Fournier, and Douglas W. Oldenburg. Inversion of airborne geophysics over the do-27/do-18 kimberlites - part 3: induced polarization. Interpretation, 5(3):345–358, August 2017.
[KO15] Seogi Kang and Douglas W. Oldenburg. Recovering IP information in airborne time domain electromagnetic data. In 24th International Geophysical Conference and Exhibition. 2015.
[KO16] Seogi Kang and Douglas W. Oldenburg. On recovering distributed ip information from inductive source time domain electromagnetic data. Geophysical Journal International, 207(1):174–196, 2016. doi:10.1093/gji/ggw256.
[KS04] Pierre Keating and Pascal Sailhac. Use of the analytic signal to identify magnetic anomalies due to kimberlite pipes. Geophysics, 69(1):180–190, 2004.
[Ken13] A Kennedy. Application for Approval of the Aspen Project. Imperial Oil, 2013.
[Ker96] J. A. Kerswill. Iron-formation-hosted stratabound gold. Geology of Canadian mineral deposit types. Geology of Canada, 8:367–382, 1996.
[KDM+14] K Key, Z Du, J Mattsson, A McKay, and J Midgley. Anisotropic 2.5d inversion of towed streamer em data from three north sea fields using parallel adaptive finite elements. In 76th Annual International Conference and Exhibition. EAGE, 2014.
[Kil11] P. Killeen. Exploration Trends and Developments. The Northern Miner, 2011.
[Kja07] B A Kjarsgaard. Kimberlite Pipe Models: Significance for Exploration. In B Milkereit, editor, Proceedings of Exploration ‘07: Fifth Decennial International Conference on Mineral Exploration, 667–677. 2007.
[KWA02] B A Kjarsgaard, L Wilkinson, and J A Armstrong. Geology, Lac de Gras kimberlite field, central Slave province, Northwest Territories-Nunavut. Geological Survey of Canada, Open File 3238, scale 1:250 000, 2002.
[KA12] N.O. Kozhevnikov and E.Yu. Antonov. Fast-decaying inductively induced polarization in frozen ground: a synthesis of results and models. Journal of Applied Geophysics, 82:171 – 183, 2012. URL: http://www.sciencedirect.com/science/article/pii/S0926985112000626, doi:10.1016/j.jappgeo.2012.03.008.
[KM12] T Kratzer and J Macnae. Induced polarization in airborne EM. Geophysics, 77(5):E317–E327, 2012. doi:10.1190/geo2011-0492.1.
[KPL+15] Karl Kwan, Alexander Prikhodko, Jean M Legault, Geoffrey Plastow, Joe Xie, and Keith Fisk. Airborne Inductive Induced Polarization Chargeability Mapping of VTEM Data. In ASEG-PESA, 1–5. 2015.
[LBMC85] Victor Franklin Labson, A Becker, H F Morrison, and U Conti. Geophysical exploration with audiofrequency natural magnetic fields. Geophysics, 50(4):656–664, 1985.
[LKC11] A Lamb, C Kratt, and W Calvin. Geothermal exploration using hyperspectral analysis over Dixie and Fairview Valleys, Nevada. Geothermal Resources Council Transactions, 35:867–871, 2011.
[LAT+11] M Lazaro, S Alm, A Tiedeman, C Page, D Meade, J Shoffner, and K Bucher. Department of the Navy Geothermal Exploration on Naval Air Station Fallon (NASF) Managed Lands in Dixie Valley, Nevada. Geothermal Resources Council Transactions, 35:873–877, 2011.
[Lee84] T Lee. The Effect of a Superparamagnetic Layer. Geophysical Prospecting, 32(March 1983):480–496, 1984.
[Leg10] J. M. Legault. Technical report on the Albany Project, Porcupine Mining District, Ontario: NI 43-10. Technical Report, Geotech Ltd., 2010. for Zenyatta Ventures Ltd., 83 pages.
[LWG+12] Jean Legault, Glenn A Wilson, Alexander V Gribenko, Michael S Zhdanov, Shengkai Zhao, and Keith Fisk. An overview of the ZTEM and AirMt airborne electromagnetic systems: a case study from the Nebo–Babel Ni–Cu–PGE deposit, West Musgrave, Western Australia. Preview, 2012(158):26–32, 2012.
[LO12] Jean M Legault and Others. Ten years of passive airborne AFMAG EM development for mineral exploration. In 2012 SEG Annual Meeting. Society of Exploration Geophysicists, 2012.
[LG00] Frank Lehmann and Alan G. Green. Topographic migration of georadar data: implications for acquisition and processing. GEOPHYSICS, 65(3):836–848, 2000. doi:10.1190/1.1444781.
[LO09] P G Lelievre and D W Oldenburg. A 3D total magnetization inversion applicable when significant, complicated remanence is present. Geophysics, 74:L21–L30, 2009.
[LO96] Y Li and D W Oldenburg. 3-D inversion of magnetic data. Geophysics, 61:394–408, 1996.
[LO98] Y Li and D W Oldenburg. 3-D inversion of gravity data. Geophysics, 63:109–119, 1998.
[LO10] Y Li and D W Oldenburg. Rapid construction of equivalent sources using wavelets. Geophysics, 75:L51–L59, 2010.
[Li01] Yaoguo Li. 3-D inversion of gravity gradiometer data. In 71st Annual International Meeting, SEG Expanded Abstract. 2001.
[LO99] Yaoguo Li and Douglas W Oldenburg. Estimating depth of investigation in dc resistivity and ip surveys. Geophysics, 64(2):403–416, 1999.
[Llo82] S P Lloyd. Least Squares quantization in PCM. IEEE Transactions on Information Theory, 28(2):129–137, March 1982.
[LZ08] B Lo and M Zang. Numerical modeling of Z-TEM (airborne AFMAG) responses to guide exploration strategies. SEG Extended Abstracts, 27:1098–1102, 2008.
[LZO08] Bob Lo, Michael Zang, and Others. Numerical modeling of Z-TEM (airborne AFMAG) responses to guide exploration strategies. In 2008 SEG Annual Meeting. Society of Exploration Geophysicists, 2008.
[Mac12] L. M. MacGregor. Integrating seismic, CSEM and well log data for reservoir characterization. The Leading Edge, pages 268–277, 2012.
[MT14] Lucy MacGregor and James Tomlinson. Marine controlled-source electromagnetic methods in the hydrocarbon industry: A tutorial on method and practice. Interpretation, 2(3):SH13–SH32, 2014. URL: http://library.seg.org/doi/10.1190/INT-2013-0163.1, doi:10.1190/INT-2013-0163.1.
[Mac85] J Macnae. Applications of geophysics for the detection and exploration of kimberlites and lamproites. Journal of Geochemical Exploration, 53:213–243, 1985.
[Mac16] James Macnae. Quantitative estimation of intrinsic induced polarization and superparamagnetic parameters from airborne electromagnetic data. Geophysics, 81(6):433–446, 11 2016.
[Man08] N Mankhemthong. Structure of the Inter-Basin Transition Zone between Dixie Valley and Fairview Valley, Nevada, USA. Master’s thesis, University of Nevada, Reno, 2008.
[MOA08] N. Mankhemthong, G. L. Oppliger, and Z. Aslett. Structural localization of two low temperature geothermal systems within the gravity defined linkage between Dixie Valley and Fairview Valley, Nevada. Geothermal Resources Council Transactions, 32:291–295, 2008.
[MMW93] A J Mansure, R F Meldau, and H V Weyland. Field Examples of Electrical Resistivity Changes During Steamflooding. SPE Formation Evaluation, 8:57–64, 1993.
[MHO14] David Marchant, Eldad Haber, and Douglas Oldenburg. Three-dimensional modeling of IP effects in time-domain electromagnetic data. Geophysics, 79(6):E303–E314, 2014. doi:10.1190/geo2014-0060.1.
[MBR12] F J Martinez, M L Batzle, and A Revil. Influence of temperature on seismic velocities and complex conductivity of heavy oil-bearing sands. Geophysics, 77:WA19–WA34, 2012.
[Mas99] K M Masun. The petrography and mineralogy of the Lac de Gras kimberlite field, Slave Province, Northwest Territories: A comparative study. Master’s thesis, Department of Geology, Lakehead University, November 1999.
[Max61] James C Maxwell. Xliv. on physical lines of force. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 21(140):281–291, 1861.
[Max65] James C. Maxwell. A dynamical theory of the electromagnetic field. Philosophical Transactions of the Royal Society, 1865.
[Maz07] P. Mazumdar. Poisson dampening factor. The Leading Edge, 26:850–852, 2007. doi:10.1190/1.2756862.
[MWK+02] M B McClenaghan, B C Ward, I M Kjardsgaard, D E Kerr, and L A Dredge. Indicator mineral and till geochemical dispersal patterns associated with the Ranch Lake kimberlite, Lac de Gras region, NWT, Canada. Geochemistry: Exploration, Environment, Analysis, 2:299–320, 2002.
[MO14a] M S McMillan and D W Oldenburg. Cooperative constrained inversion of multiple electromagnetic data sets. Geophysics, 79(4):B173–B185, 2014.
[MSHO15a] M S McMillan, C Schwarzbach, E Haber, and D W Oldenburg. 3D parametric hybrid inversion of time-domain airborne electromagnetic data. Geophysics, 80(6):K25–K36, 2015.
[MO14b] Michael S McMillan and Douglas W Oldenburg. Cooperative constrained inversion of multiple electromagnetic data sets. Geophysics, 79(4):B173–B185, 2014.
[MSHO15b] Michael S. McMillan, Christoph Schwarzbach, Eldad Haber, and Douglas W. Oldenburg. 3D parametric hybrid inversion of time-domain airborne electromagnetic data. Geophysics, 80(6):K25–K36, sep 2015. URL: http://library.seg.org/doi/10.1190/geo2015-0141.1, doi:10.1190/geo2015-0141.1.
[Mej98] Maxwell A. Meju. A simple method of transient electromagnetic data analysis. Geophysics, 63:405–410, 1998.
[MGB+15] Kaspar Merz, Alan G Green, Thomas Buchli, Sarah M Springman, and Hansruedi Maurer. A new 3-D thin-skinned rock glacier model based on helicopter GPR results from the Swiss Alps. Geophysical Research Letters, 42(11):4464–4472, 2015.
[MMB+15] Kaspar Merz, Hansruedi Maurer, Thomas Buchli, Heinrich Horstmeyer, Alan G Green, and Sarah M Springman. Evaluation of Ground-Based and Helicopter Ground-Penetrating Radar Data Acquired Across an Alpine Rock Glacier. Permafrost and Periglacial Processes, 26(1):13–27, 2015.
[MMR+16] Kaspar Merz, Hansruedi Maurer, Lasse Rabenstein, Thomas Buchli, Sarah M Springman, and Matthias Zweifel. Multidisciplinary geophysical investigations over an alpine rock glacier. Geophysics, 81(1):WA147—–WA157, 2016.
[MMHG06] Martin Musil, Hansruedi Maurer, Klaus Hollinger, and Alan G Green. Internal structure of an alpine rock glacier based on crosshole georadar traveltimes and amplitudes. Geophysical Prospecting, 54(3):273–285, 2006.
[Munoz14] G Muñoz. Exploring for Geothermal Resources with Electromagnetic Methods. Surv Geophys, 35:101–122, 2014.
[Nab88] M. Nabighian. Electromagnetic Methods in Applied Geophysics. Society of Exploration Geophysicists, 1988. doi:10.1190/1.9781560802631.
[Neel49] M. Louis Néel. Théorie du traînage magnétique des ferromagnétiques en grains fins avec application aux terres cuites. Annales de Geophysique, 5:99–136, 1949.
[OL03] D W Oldenburg and Y Li. 3-D inversion of gravity and magnetic data with depth resolution. Geophysics, 68:400–408, 2003.
[OL94a] D. Oldenburg and Y. Li. Inversion of induced polarization data. Geophysics, 59(9):1327–1341, 1994. URL: http://library.seg.org/doi/abs/10.1190/1.1443692, doi:10.1190/1.1443692.
[OL99] D. W. Oldenburg and Y Li. Estimating depth of investigation in DC resistivity and IP surveys. Geophysics, 64(2):403–416, March-April 1999.
[OL94b] Douglas W Oldenburg and Yaoguo Li. Inversion of induced polarization data. Geophysics, 59(9):1327–1341, 1994.
[Ost84] W. J. Ostrander. Plane-wave reflection coefficients for gas sands at non-normal angles of incidence. Geophysics, 49:1637–1648, 1984.
[Pag65] B M Page. Preliminary geologic map of a part of the Stillwater Range, Churchill County, Nevada. Nevada Bureau of Mines, 1965.
[PGC+12] Pascal Pare, Alexander V Gribenko, Leif H Cox, Martin Čuma, Glenn A Wilson, Michael S Zhdanov, Jean Legault, Jaco Smit, and Louis Polome. 3D inversion of SPECTREM and ZTEM airborne electromagnetic data from the Pebble Cu–Au–Mo porphyry deposit, Alaska. Exploration Geophysics, 43(2):104–115, 2012.
[Pas99] L. R. Pasion. Inversion of Time Domain Electromagnetic Data for the Detection of Unexploded Ordnance. PhD thesis, Univ. of British Columbia, 1999.
[Pas07] L. R. Pasion. Inversion of time domain electromagnetic data for the detection of unexploded ordnance. PhD thesis, Univ. of British Columbia, 2007.
[PO01] L. R. Pasion and D. W. Oldenburg. A discrimination algorithm for uxo using time domain electromagnetic induction. Journal of Environmental and Engineering Geophysics, 6:91–102, 2001.
[Pea10] M J Peacock. Athabasca oil sands: reservoir characterization and its impact on thermal and mining opportunities. Petroleum Geology Conference Series, 7:1141–1150, 2010.
[Pel97] J A Pell. Kimberlite in the Slave Craton, Northwest Territories, Canada. Geoscience Canada, 24(2):77–90, 1997.
[PWH+78] W Pelton, S Ward, P Hallof, W Sill, and P Nelson. Mineral discrimination and removal of inductive coupling with multifrequency IP. Geophysics, 43(3):588–609, 1978. doi:10.1190/1.1440839.
[PSGZ10] R Penfield, L Shevenell, L Garside, and R Zehner. Nevada Geothermal Resources - Map 161. Nevada Bureau of Mines and Geology, 2010.
[Poo81] J.R. Poole. A reassessment of the mount novit prospect: unpublished company report. 1981.
[PH07] M Power and D Hildes. Geophysical strategies for kimberlite exploration in northern Canada. In Proceedings of Exploration ‘07: Fifth Decennial International Conference on Mineral Exploration, 1025–1031. 2007.
[RW07] L E Reed and K E Witherly. 50 years of kimberlite geophysics, a review. In B Milkereit, editor, Proceedings of Exploration 07: Fifth Decennial International Conference on Mineral Exploration, 679–689. 2007.
[RFC14] A. Revil, N. Florsch, and C. Camerlynck. Spectral induced polarization porosimetry. Geophysical Journal International, 198(2):1016–1033, 2014. doi:10.1093/gji/ggu180.
[Rey98] J M Reynolds. An Introduction to Applied and Environmental Geophysics. Wiley, 1998.
[RP93] W Roest and M Pilkington. Identifying remanent magnetization effects in magnetic data. Geophysics, 58:653–659, 1993.
[Ros11] G K Rosenkjar. Electromagnetic methods in geothermal exploration. 1D and 3D inversion of TEM and MT data from a synthetic geothermal area and the Hengill geothermal area, SW Iceland. Master’s thesis, University of Iceland, 2011.
[RM14] D. Ross and K. M. Masun. Technical report on the albany graphite deposit, northern ontario, canada: ni 43-101 report. Technical Report, Roscoe Postle Associates Inc., 2014. for Zenyatta Ventures Ltd., Project #2156, 113 pages.
[Rus78] R.R. Russel. The mount novit pb-ag-zn deposit - variations on a mount isa theme. Third Australian Geological Convention, Geological Society Australia, 1978.
[ROS01] Andrea Rutley, Douglas W Oldenburg, and Roman Shekhtman. 2-d and 3-d ip/resistivity inversion for the interpretation of isa-style targets. Exploration Geophysics, 32(3/4):156–159, 2001.
[STB11] F A M Santos, J Triantafilis, and K Bruzgulis. Case History: A spatially constrained 1D inversion algorithm for quasi-3D conductivity imaging: Application to DUALEM-421 data collected in a riverine plain. Geophysics, 76(2):43–53, March-April 2011.
[STBO10] Daniel Sattel, Scott Thomas, Michael Becken, and Others. An analysis of ZTEM data over the Mt Milligan porphyry copper deposit, British Columbia. In 2010 SEG Annual Meeting. Society of Exploration Geophysicists, 2010.
[SW12] Daniel Sattel and Ken Witherly. Extracting information from ZTEM data with 2D inversions. ASEG Extended Abstracts, 2012(1):1–4, 2012.
[SJrgensenAEffers14] Cyril Schamper, Flemming Jørgensen, Esben Auken, and Flemming Effersø. Case History Assessment of near-surface mapping capabilities by airborne transient electromagnetic data - An extensive comparison to conventional borehole data. Geophysics, 79(4):B187–B199, 2014.
[Sch12] Paul Schwering. Elevenmile Canyon DC resistivity survey. personal communication, 2012.
[Sei59] H. Seigel. Matehmatical formulation and type curves for induced polarization. Geophysics, 24(3):547–565, 1959. URL: http://library.seg.org/doi/abs/10.1190/1.1438625, doi:10.1190/1.1438625.
[Sim63] P. Simandoux. Dielectric measurements in porous media and application to shaly formation. Revue de L’Institut Français du Pétrole, 18:supplementary issue, 193–215, 1963.
[SB05] F Simpson and K Bahr. Practical Magnetotellurics. Cambridge, 2005.
[Sin09] S. Singleton. The effects of seismic data conditioning on prestack simultaneous impedance inversion. The Leading Edge, pages 772–781, 2009.
[SSC+11] J Skord, C Sladek, M Coolbaugh, P H Cashman, M Lazaro, and C Kratt. Two-meter Temperature Surveys for Geothermal Exploration Project at NAS Fallon. Geothermal Resources Council Transactions, 35:1023–1027, 2011.
[SA12] S.R. Slattery and L.D. Andriashek. Overview of airborne-electromagnetic and -magnetic geophysical survey data collection using the resolveâ® and geotemâ® surveys near red deer,central alberta, ercb/ags open file report 2012-07. 2012. URL: http://ags.aer.ca/document/OFR/OFR_2012_07.PDF.
[SMB03] J. T. Smith, H. F. Morrison, and A. Becker. Parametric forms and the inductive response of a permeable conductive sphere. Lawrence Berkeley National Laboratory, 2003.
[SK96] R S Smith and J Klein. A special circumstance of airborne induced-polarization measurements. Geophysics, 61(1):66–73, January-February 1996.
[Smi88] Richard S. Smith. A plausible mechanism for generating negative coincident-loop transient electromagnetic responses: Ph.D dissertation. PhD thesis, University of Toronto, 1988.
[SWPW88] Richard S. Smith, PW Walker, BD Polzer, and G. F. West. The time-domain electromagnetic response of polarizable bodies: an approximate convolution algorithm. Geophysical Prospecting, 36(April):772–785, 1988. URL: http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2478.1988.tb02192.x/abstract.
[SW89] Richard S. Smith and G. F. West. Field examples of negative coincident-loop transient electromagnetic responses modeled with polarizable half-planes. GEOPHYSICS, 54(11):1491–1498, 1989. doi:10.1190/1.1442613.
[Ste06] V A Sterritt. Understanding physical property - mineralogy relationships in the context of geologic processes in the ultramafic rock-hosted mineral deposit environment: aiding interpretation of geophysical data. Master’s thesis, The University of British Columbia, 2006.
[SSV08a] A Steuer, B Siemon, and A Viezzoli. Application of spatially constrained inversion on hem and skytem data. In 5th International Conference on Airborne Electromagnetics. Haikko Manor, Finland, May 2008.
[SSV08b] A Steuer, B Siemon, and A Viezzoli. Application of spatially constrained inversion on HEM and Skytem data. In 5th International Conference on Airborne Electromagnetics. Haikko Manor, Finland, May 2008.
[Sto08] G. M. Stott. Precambrian geology of the Hudson Bay and James Bay lowlands region interpreted from aeromagnetic data - south sheet. Ontario Geological Survey, 2008. Preliminary Map P.3599, scale 1:500 000.
[SP07] K. M. Strack and P. B. Pandey. Exploration with controlled-source electromagnetics under basalt cover in India. The Leading Edge, 26(3):360–363, 2007.
[Str41] Julius Adams Stratton. Electromagnetic Theory. McGraw-Hilll, 1941.
[Tay14] Craig Taylor. Mine scale description of the mineralization at the lalor deposit, snow lake, manitoba, canada. In Exploration for deep VMS ore bodies, the Hudbay Lalor case study: 2014 fall symposium. B.C. Geophysical Society, 2014.
[TMR01] T. Tonellot, D. Mace, and V. Richard. Joint stratigraphic inversion of angle-limited stacks. SEG Technical Program Expanded Abstract, pages 227–230, 2001.
[VCA08] A Viezzoli, Anders Vest Christiensen, and Esben Auken. Quasi-3D modeling of airborne TEM data by spatially constrained inversion. Geophysics, 73(3):105–113, May-June 2008.
[VAM09] Andrea Viezzoli, Esben Auken, and Tim Munday. Spatially constrained inversion for quasi 3d modelling of airborne electromagnetic data â an application for environmental assessment in the lower murray region of south australia. Exploration Geophysics, 40(2):173–183, 2009. URL: http://library.seg.org/doi/abs/10.1071/EG08027, doi:10.1071/EG08027.
[VKC+15] Andrea Viezzoli, Vlad Kaminski, Yusen Ley Cooper, Lyndon Hardy, and Gianluca Fiandaca. Improving modelling of AEM data affected by IP, two case studies. In 24th International Geophysical Conference and Exhibition. 2015.
[VMAC10] Andrea Viezzoli, Tim Munday, Esben Auken, and Anders V Christiansen. Accurate quasi 3D versus practical full 3D inversion of AEM data – the Bookpurnong case study. Preview, 2010(149):23–31, jan 2010. URL: http://www.hgg.geo.au.dk/Papers_EndNote/0477620876/VIEZZOLI2010C.pdf.
[VMF+16] Troels Vilhelmsen, Pernille Marker, Nikolaj Foged, Thomas Wernberg, Esben Auken, Anders Vest Christiansen, Peter Bauer-Gottwein, Christensen Steen, and Anne-Sophie Høyer. A regional scale hydrostratigraphy generated from geophysical data of varying age, type and quality. This paper is current submitted, 2016.
[Voz72] Keeva Vozoff. The magnetotelluric method in the exploration of sedimentary basins. Geophysics, 37(1):98–141, 1972.
[Wai51] J. R. Wait. A conductive sphere in a time varying magnetic field. Geophysics, 16:666–672, 1951.
[WS69] J. R. Wait and K. P. Spies. Quasi-static transient response of a conducting permeable sphere. Geophysics, 34(5):789–792, 1969.
[WDH07] P E Wannamaker, W M Doerner, and D P Hasterok. Integrated dense array and transect MT surveying at Dixie Valley Geothermal Area, Nevada; structural controls, hydrothermal alteration and deep fluid sources. In Thirty-Second Workshop on Geothermal Reservoir Engineering. 2007.
[War59] S H Ward. AFMAGâAIRBORNE AND GROUND. GEOPHYSICS, 24(4):761–787, 1959. doi:10.1190/1.1438657.
[WH88] Stanley H Ward and Gerald W Hohmann. Electromagnetic Theory for Geophysical Applications. In Electromagnetic Methods in Applied Geophysics, chapter 4, pages 130–311. Society of Exploration Geophysicists, 1 edition, 1988. URL: http://library.seg.org/doi/abs/10.1190/1.9781560802631.ch4, doi:10.1190/1.9781560802631.ch4.
[War90] Stanley H. Ward. 6. resistivity and induced polarization methods. In Geotechnical and Environmental Geophysics, chapter 6, pages 147–190. Society of Exploration Geophysicists, 1990. URL: http://library.seg.org/doi/abs/10.1190/1.9781560802785.ch6.
[WS68] M H Waxman and L J M Smits. Electrical Conductivities in Oil-Bearing Shaly Sands. Society of Petroleum Engineers Journal, 1968. doi:10.2118/1863-A.
[Wei82] P Weidelt. Response characteristics of coincident loop transient electromagnetic systems. Geophysics, 47(9):1325–1330, September 1982.
[Wit05a] K Witherly. Report on vtem test program over three kimberlite, lac de gras area, northwest territories, canada. Technical Report, Condor Consulting, Febuary 2005.
[Wit05b] K Witherly. Report on VTEM test program over three kimberlite, Lac de Gras area, Northwest Territories, Canada. Technical Report, Condor Consulting, Febuary 2005.
[WIM04] K. Witherly, R. Irvine, and E. B. Morrison. The Geotech VTEM time domain electromagnetic system. SEG Expanded Abstracts, pages 1217–1221, 2004.
[WS12] Ken Witherly and Daniel Sattel. The application of ZTEM to porphyry copper-gold exploration. ASEG Extended Abstracts, 2012(1):1–4, 2012.
[YOH14] D Yang, D W Oldenburg, and E Haber. 3-D inversion of airborne electromagnetic data parallelized and accelerated by local mesh and adaptive soundings. Geophysical Journal International, 196:1492–1507, 2014.
[YO16] Dikun Yang and Douglas W. Oldenburg. 3d inversion of total magnetic intensity data for time-domain em at the lalor massive sulphide deposit. Exploration Geophysics, 48(2):110–123, 2016.
[ZCY+03] Y. Zhang, L. M. Collins, H. Yu, C. E. Baum, and L. Carin. Sensing of unexploded ordnance with magnetometer and induction data; theory and signal processing. IEEE Transactions on Geoscience and Remote Sensing, 41:1005–1015, 2003.
[ZCR13] M S Zhdanov, L Cox, and J Rudd. Paradigm change in 3D inversion of airborne EM surveys: case study for oil sands exploration near Fort McMurray, Alberta. First Break, 31:81–85, 2013.
[GolderALtd14] Golder Associated Ltd. Permafrost baseline report for the Jay Project. Technical Report, Dominion Diamond Ekati Corporation, 2014.
[NaturalRCanada16] Natural Resources Canada. Canada: A Diamond-Producing Nation. http://www.nrcan.gc.ca/mining-materials/diamonds/15972, 2016. Online, accessed 14-November-2016.
[TheRCorporation81a] The Rosewood Corporation. Well Eleven Mile Canyon 52-14. 1981.
[TheRCorporation81b] The Rosewood Corporation. Well Federal 8919 72-23. 1981.