Identification of magnetic minerals by scanning electron microscope and application of ferrofluid |
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Authors: | G Kletetschka A Kontny |
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Institution: | (1) Department of Physics, Catholic University of America, Washington, DC, USA;(2) Institute of Geology, Acad. Sci. Czech Republic, Rozvojová 6, 160 00 Prague 6, Czech Republic;(3) NASA Goddard Space Flight Center, Greenbelt, USA;(4) Geological-Paleontological Institute, University of Heidelberg, Heidelberg, Germany |
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Abstract: | Magnetic minerals are mostly identified by a combination of rock magnetic and microscopic techniques and the ferrofluid method in combination with an optical microscope was applied during the last decades. But today, scanning electron microscopy (SEM) is preferred for the observation of mineral phases because its depth of focus and resolving capability at the same magnification. In this study, we report on a method, which allows ferrofluid application under the SEM. We coated a polished basalt sample containing titanomagnetite grains with high demagnetizing fields, with a colloidal suspension containing magnetite particles (ferrofluid) ranging in size between 11 and 20 nm. Due to large gradients of multidomain grains the ferrofluid particles adhered to their surfaces. Other grains of similar composition present (ilmenohematite) but with low demagnetizing fields do not generate large magnetic gradients and therefore do not attract the colloidal particles. Upon evaporation of the ferrofluid and covering the sample with conducting material the magnetic grains with high demagnetizing field are easily identifiable under the scanning electron microscope. The different mineralogy observed by this method is confirmed by temperature dependent variation of magnetic susceptibility, revealing titanomagnetite and ilmenohematite as magnetic carriers in the basaltic samples. |
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Keywords: | magnetic mineralogy ferrofluid SEM magnetism magnetic susceptibility titanomagnetite ilmenohematite |
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