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Pirard, E. (2004) Multispectral imaging of ore minerals in optical microscopy. Mineralogical Magazine, 68 (2) 323-333 doi:10.1180/0026461046820189

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Reference TypeJournal (article/letter/editorial)
TitleMultispectral imaging of ore minerals in optical microscopy
JournalMineralogical Magazine
AuthorsPirard, E.Author
Year2004 (April)Volume68
Issue2
PublisherMineralogical Society
DOIdoi:10.1180/0026461046820189Search in ResearchGate
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Mindat Ref. ID243539Long-form Identifiermindat:1:5:243539:2
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Full ReferencePirard, E. (2004) Multispectral imaging of ore minerals in optical microscopy. Mineralogical Magazine, 68 (2) 323-333 doi:10.1180/0026461046820189
Plain TextPirard, E. (2004) Multispectral imaging of ore minerals in optical microscopy. Mineralogical Magazine, 68 (2) 323-333 doi:10.1180/0026461046820189
Abstract/NotesAbstractMultispectral imaging of ore minerals under the microscope is a logical extension of quantitative colour analysis and microspectrophotometric analysis of minerals. This paper describes, step by step, how the proper calibration of a scientific video camera can be performed in order to obtain precise reflectance measurements at each pixel within the field of view. After having reviewed the different sources of noise and aberration, practical formulae are presented that allow for the acquisition of a set of images at different wavelengths in the visible spectrum.The advantage of using a multispectral image acquisition system based on narrow bandwidth (10 nm) interference filters is discussed and quantitatively compared to colour imaging using tristimulus (red, green, blue) filters.Images taken from major sulphide parageneses are shown as examples of well contrasted multispectral images. Finally, the potential for automatic identification of ore minerals is discussed with reference to supervised multivariate image classification algorithms similar to those used in remote sensing. Additional comments on extending the principles for handling optical anisotropy and developing a multiradial imaging system are made.

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Welch, M. D. (2004) Pb-Si ordering in sheet-oxychloride minerals: the super-structure of asisite, nominally Pb7SiO8Cl2. Mineralogical Magazine, 68 (2) 247-254 doi:10.1180/0026461046820185
Mordberg, L. E. (2004) Thorium in crandallite-group minerals: an example from a Devonian bauxite deposit, Timan, Russia. Mineralogical Magazine, 68 (3) 489-497 doi:10.1180/0026461046830200
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Chutas, N. I., Sack, R. O. (2004) Ore genesis at La Colorada Ag-Zn-Pb deposit in Zacatecas, Mexico. Mineralogical Magazine, 68 (6) 923-937 doi:10.1180/0026461046860231
Mysen, Bjorn (2004) Hatten S. Yoder, Jr. (1921—2003) Mineralogical Magazine, 68 (2) 413-414 doi:10.1180/s0026461x00032485
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Hall, A. J., Cervelle, B. D., Simpson, P. R. (1980) An optical anomaly possibly due to optical activity in some uniaxial opaque ore minerals. Mineralogical Magazine, 43 (331) 909-912 doi:10.1180/minmag.1980.043.331.15
Pirard, E., Bertholet, V. (2000) Segmentation of multispectral images in optical metallography. Revue de Métallurgie, 97 (2). 219-227 doi:10.1051/metal/200097020219
 
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