1 |
Moxham, R. M., Foote, R. S., and Bunker, C. M., 1965, Gamma-ray spectrometer studies of hydrothermally altered rocks: Economic Geology and the Bulletin of the Society of Economic Geologists, 60, 653-671. doi:10.2113/gsecongeo.60.4.653
DOI
|
2 |
Shives, R. B. K., Charbonneau, B. W., and Ford, K. L., 1997, The detection of potassic alteration by Gamma-Ray Spectrometry – Recognition of alteration related to mineralisation, in Proceedings of Exploration 97: Fourth decennial conference on mineral exploration, pp. 741-752.
|
3 |
Darnley, A. G., 1972, Airborne gamma-ray survey techniques, in Uranium prospecting handbook: Institution of Mining&Metallurgy, pp. 174-211.
|
4 |
IAEA, 1991, Airborne gamma-ray spectrometer surveying – Technical Report Series, No. 323: International Atomic Energy Agency.
|
5 |
Yeates, A. N., Wyatt, B. W., and Tucker, D. H., 1982, Application of gammaray spectrometry to prospecting for tin and tungsten granites, particularly within the Lachlan Fold Belt, New South Wales: Economic Geology and the Bulletin of the Society of Economic Geologists, 77, 1725-1738. doi:10.2113/gsecongeo.77.7.1725
DOI
|
6 |
Dodd, P. H., Droullard, R. F., and Lathan, C. P., 1969, Borehole logging methods for exploration and evaluation of uranium deposits, in L. W. Morley, ed., Mining and Groundwater Geophysics 1967, Geological Survey of Canada, Economic Geology Report 26, pp. 401-415.
|
7 |
Grant, J. A., 1998, Ten things the textbooks don't tell you about processing and archiving airborne gamma-ray spectrometric data, in Current research 1998-D: Geological Survey of Canada, pp. 83-87.
|