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“Crustal-scale structure and deformation of Lu-Zong ore district; joint interpretation from integrated geophysical data”, in Mining and minerals exploration interpretation, vol. 3, Society of Exploration Geophysicists, Tulsa, OK, United States, 2015, pp. SL39-SL61.
, GeoRef, Copyright 2018, American Geological Institute.2015-073919LHTD FaultLu-Zong mining districtTangjiayuan-Zhuanaqiao FaultYijing-Taojiaxiang Fault
“Regional 3D geophysical investigation of the Sudbury Structure”, in Mining and minerals exploration interpretation, vol. 3, Society of Exploration Geophysicists, Tulsa, OK, United States, 2015, pp. SL63-SL81.
, GeoRef, Copyright 2018, American Geological Institute.2015-073920Onwatin Formation
“Regional 3D geophysical investigation of the Sudbury Structure”, in Mining and minerals exploration interpretation, vol. 3, Society of Exploration Geophysicists, Tulsa, OK, United States, 2015, pp. SL63-SL81.
, GeoRef, Copyright 2018, American Geological Institute.2015-073920Onwatin Formation
“Using constrained inversion of gravity and magnetic field to produce a 3D litho-prediction model”, in SEG International Exposition and 86th Annual Meeting, SEG 2016, October 16, 2011 - October 21, 2011, vol. 35, Dallas, TX, United states: Society of Exploration Geophysicists, 2016, pp. 2170-2174.
, Compilation and indexing terms, Copyright 2018 Elsevier Inc.20172003662434
“Using the discrete conductor model to extend the concept of airborne electromagnetic footprint”, in 34th international geological congress; abstracts, vol. 34, [International Geological Congress], [location varies], International, 2012, p. 1804.
, GeoRef, Copyright 2018, American Geological Institute.2014-017276discrete conductor modelelectromagnetic profilesfootprint sectionsmoving footprint
“Exploring for copper–gold deposits exhibiting a wide range of conductivities with time–domain electromagnetics at Opemiska, Canada”, Sixth Decennial International Conference on Mineral Exploration. Toronto, ON, 2017.
, “Approximate semianalytical solutions for the electromagnetic response of a dipping-sphere interacting with conductive overburden”, Geophysics, vol. 81, pp. E265-E277, 2016.
, GeoRef, Copyright 2018, American Geological Institute.2016-076679Reid Mahaffy
“Approximate semianalytical solutions for the electromagnetic response of a dipping-sphere interacting with conductive overburden”, GeophysicsGeophysics, vol. 81, pp. E265-E277, 2016.
, “Benefits of using multi-component transmitter-receiver systems for determining geometrical parameters of a dipole conductor from single-line anomalies”, Exploration Geophysics (Melbourne), vol. 47, pp. 1-12, 2016.
, GeoRef, Copyright 2018, American Geological Institute.2016-087939synthetic data
“Case histories illustrating the characteristics of the HeliGEOTEM system”, Exploration Geophysics (Melbourne), vol. 40, pp. 246-256, 2009.
, GeoRef, Copyright 2018, American Geological Institute.2010-060625data qualityDIGHEMGEOTEMHeliGEOTEMNepean MineRESOLVESH5113-3135
“Case histories illustrating the characteristics of the HeliGEOTEM system”, Exploration GeophysicsExploration Geophysics, vol. 40, pp. 246-256, 2009.
, “Case history of combined airborne time-domain electromagnetics and power-line field survey in Chibougamau, Canada”, GeophysicsGeophysics, vol. 75, pp. B67-B72, 2010.
, “Combining spatial components and Hilbert transforms to interpret ground-time-domain electromagnetic data”, Geophysics, vol. 80, pp. E237-E246, 2015.
, GeoRef, Copyright 2018, American Geological Institute.2015-104673Coulon Field
“Combining spatial components and Hilbert transforms to interpret ground-time-domain electromagnetic data”, GeophysicsGeophysics, vol. 80, pp. E237-E246, 2015.
, “A constrained potential field data interpretation of the deep geometry of the Sudbury Structure”, Canadian Journal of Earth Sciences = Revue Canadienne des Sciences de la Terre, vol. 51, pp. 715-729, 2014.
, GeoRef, Copyright 2018, American Geological Institute.2014-058234Elliot Lake GroupSandcherry Fault
“A constrained potential field data interpretation of the deep geometry of the Sudbury structure”, Canadian Journal of Earth SciencesCanadian Journal of Earth Sciences, vol. 51, pp. 715-729, 2014.
, “Contrast source inversion (CSI) method to cross-hole radio-imaging (RIM) data - Part 2: a complex synthetic example and a case study”, Journal of Applied Geophysics, vol. 150, pp. 93-100, 2018.
, GeoRef, Copyright 2018, American Geological Institute.818467-9contrast source inversionradio-imaging
“Decomposing the electromagnetic response of magnetic dipoles to determine the geometric parameters of a dipole conductor”, Exploration Geophysics (Melbourne), vol. 47, pp. 13-23, 2016.
, GeoRef, Copyright 2018, American Geological Institute.2016-087940
“Detection of alteration at the Millennium uranium deposit in the Athabasca Basin; a comparison of data from two airborne electromagnetic systems with ground resistivity data”, Geophysical ProspectingGeophysical Prospecting, vol. 58, pp. 1147-1158, 2010.
, GeoRef, Copyright 2018, American Geological Institute.2013-050877MEGATEMMillennium DepositTEMPEST system
“The effect of dielectric permittivity on the fields radiated from a radio-frequency electric dipole in a homogeneous whole space”, GeophysicsGeophysics, vol. 81, pp. K1-K8, 2016.
, “Geophysical transects in the Abitibi greenstone belt of Canada from the mineral-exploration-oriented Metal Earth project”, The Leading Edge, vol. 42, pp. 245-255, 2023.
, “Ground resistivity method and DCIP2D forward and inversion modelling to identify alteration at the Midwest uranium deposit, northern Saskatchewan, Canada”, Exploration GeophysicsExploration Geophysics, 2016.
, “Ground resistivity method and DCIP2D forward and inversion modelling to identify alteration at the Midwest uranium deposit, northern Saskatchewan, Canada”, Exploration GeophysicsExploration Geophysics, vol. 48, pp. 383-393, 2017.
, GeoRef, Copyright 2018, American Geological Institute.822091-4DCIP2Dforward modelsMidwest Depositsynthetic data
“The impact of magnetic viscosity on time-domain electromagnetic data from iron oxide minerals embedded in rocks at Opemiska, Québec, Canada”, GeophysicsGeophysics, vol. 82, pp. B165-B176, 2017.
, “The impact of magnetic viscosity on time-domain electromagnetic data from iron oxide minerals embedded in rocks at Opemiska, Quebec, Canada”, Geophysics, vol. 82, pp. B165-B176, 2017.
, GeoRef, Copyright 2018, American Geological Institute.2017-071398Chapais QuebecOpemiska Mine