References
- AusSpec International Ltd. (2008) Geologically-based spectral analysis guides for mineral exploration( GMEX). AusSpec International Ltd., Sydney, 289p.
- Corbett, G.J. and Leach, T.M. (1998) Southwest Pacific Rim gold-copper systems: structure, alteration, and mineralization. Society of Econoimc Geologist, Special Pub. no.6, 237p.
- Dilles, J.H. (2012) Footprints of porphyry Cu deposits: Vectors to the hydrothermal center using mineral mapping and lithogeochemistry. Final Technical Report. USGS, 580p.
- Halley, S., Dilles, J.H. and Tosdal, R.M. (2015) Footfrints: Hydrothermal alteration and geochemical dispersion around porphyry copper deposits. SEG Newsletter, v.100, p.11-17.
- Harraden, C.L., McNulty, B.A., Gregory, M.J. and Lang, J.R. (2013) Shortwave infrared spectral analysis of hydrothermal alteration associated with the Pebble Porphyry copper-gold-molybdenum deposit, Iliamna, Alaska. Economic Geology, v.108, p.483-494. https://doi.org/10.2113/econgeo.108.3.483
- Harvey, C.C. and Browne, P.R.L. (1991) Mixed layered clay geothermometry in the Wairakei geothermal field, New Zealand. Clay and Clay Minerals, v.39, p.614-621. https://doi.org/10.1346/CCMN.1991.0390607
- Hauff, P.L. (2008) An overview of VIS-NIR-SWIR field spectroscopy as applied to precious metals exploration. Spectral International Inc, 71p.
-
Hemley, J.J., Montoya, J.W., Marinenko, J.W. and Luce, R.W. (1980) Equilibrai in the systems
$Al_2O_3-SiO_2-H_2O$ and some general implications for alteration/mineralization processes. Economic Geology, v.75, p.210-228. https://doi.org/10.2113/gsecongeo.75.2.210 - Herrmann, W., Blake, M., Doyle, M., Huston, D., Kamprad, J., Merry, N. and Pontual., S. (2001) Short Wavelength Infrared (SWIR) Spectral Analysis of Hydrothermal Alteration Zones Associated with Base Metal Sulfide Deposits at Rosebery and Western Tharsis, Tasmania, and Highway-Reward, Queensland. Economic Geology, v.96, p.939-955.
- Kerr, A., Rafus, H., Sparkes, G., Hinchey, J. and Sandeman, H. (2011) Visible/Infrared Spectroscopy (VIRS) as a research tool in economic geology: Background and pilot studies from Newfoundland and Labrador. Geological Survey, v.11, p.145-166.
- Keshava, N. (2003) A survey of spectral unmixing algorithms. Lincoln Laboratory Journal, v.14, p.55-78.
- Kim, C.S., Choi, S.G., Kim, Y.D. and Chi, S.J. (2002) Application of short-wave infrared spectral analysis to define hydrothermal alteration zones in exploration. The Korean society of mineral and energy resources engineers, v.39, p.231-241.
- Klein, C. and Dutrow, B. (2008) Manual of mineral science. 23rd, John Wiley, New York, 635p.
- Kuosmanen, V., Laitinen, J., Eilu, P. and Ojala, J. (2005) Study of alteration indications using VSWIR reflectance of drillcores from the Harmankyla gold prospect, Kuhmo, NE Finland. Geologicla Suvey of Finland, 26p.
- Mcmillan, W.J. and Panteleyev, A. (1980) Ore deposit models; 1, porphyry copper deposits. Geoscience Canada, v.7, p.52-63.
- Pak, S.J., Choi, S.G. and Lee, D.E. (2003) The genetic implication of hydrothermal alteration of epithermal deposits from the Mugeuk Area. Journal of Mineral Society of Korea, v.16, p.265-280.
- Panteleyev, A. (1996) Epithermal Au-Ag-Cu high sulphidation. British Columbia Mineral Deposit Profiles, v.2, p.37-39.
- Reyes, A.G. (1990) Petrology of Philippines geothermal systems and the application of alteration mineralogy to their assessment. Journal of Volcanology and Geothermal Research, v.43, p.279-309. https://doi.org/10.1016/0377-0273(90)90057-M
- Scott, K.M and Yang, K. (1997) Spectral reflectance studies of white micas. Australian Mineral Industries Research Association Ltd., 18p.
- Stoffregen, R. (1987) Genesis of acid-sulfate alteration and Au-Cu-Ag mineralisation at Summitville, Colorado. Economic Geology, v.82, p.1575-1591. https://doi.org/10.2113/gsecongeo.82.6.1575
- Swayze, G.A., Clark, R.N., Goets, A.F.H., Livo, K.E., Breit, G.N., Kruse, F.A., Stutley, S.J., Snee, L.W., Lowers, H.A., Post, J.L., Stoffregen, R.E. and Ashley, R.P. (2014) Mapping advanced argillic alteration at Cuprite, Nevada using imaging spectroscopy. Economic Geology, v.109, p.1179-1221. https://doi.org/10.2113/econgeo.109.5.1179
- Thompson, A.J.B., Hauff, P.L. and Robitaille, A.J. (1999) Alteration mapping in exploration: Application of short-wave infrared (SWIR) spectroscopy. SEG Newsletter, v.39, p.16-25.
- Winkler, J. (2013) Titanium Dioxide: Production, Properties and Effective Usage. Vincentz Network, Hanover, 152p.
- Yang, K. and Huntington, J.F. (1997) Spectral analysis of drill-hole samples from Wafi porphyry Cu-Au deposit, PNG. CSIRO Exploration and Mining Report, No. 139R, 30p.