2013
DOI: 10.1071/aseg2013ab183
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Passive and active helicopter EM survey comparisons over 501 Project Cu- Zn volcanogenic massive sulphide at McFauld’s Lake, northern Ontario

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Cited by 3 publications
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“…As the ZTEM and MT techniques share similarities in processing and inversion, there have been several previous studies of simultaneously inverting these data to obtain an improved resistivity model (Holtham 2012;Sasaki, Yi and Choi 2014;Wannamaker and Legault 2014;Sattel and Witherly 2015). ZTEM case studies have been published for several types of mineral deposits including porphyry Cu, massive sulphide, and unconformity uranium, and there is interest in incorporating additional geophysical information to further improve the ZTEM results (Kaminski et al 2010;Paré et al 2012;Orta et al 2013, Hübert et al 2016Legault et al 2016). This paper focuses on porphyry deposits because their geophysical signatures can vary greatly depending on the local geology and erosion history.…”
Section: Introductionmentioning
confidence: 99%
“…As the ZTEM and MT techniques share similarities in processing and inversion, there have been several previous studies of simultaneously inverting these data to obtain an improved resistivity model (Holtham 2012;Sasaki, Yi and Choi 2014;Wannamaker and Legault 2014;Sattel and Witherly 2015). ZTEM case studies have been published for several types of mineral deposits including porphyry Cu, massive sulphide, and unconformity uranium, and there is interest in incorporating additional geophysical information to further improve the ZTEM results (Kaminski et al 2010;Paré et al 2012;Orta et al 2013, Hübert et al 2016Legault et al 2016). This paper focuses on porphyry deposits because their geophysical signatures can vary greatly depending on the local geology and erosion history.…”
Section: Introductionmentioning
confidence: 99%