Articles for 777 Discussions
Updated: May 22, 2014
The American Mineralogist
- Ague and Eckert (2012): Precipitation of rutile and ilmenite needles in garnet:implications for extreme metamorphic conditions in the Acadian Orogen, USA
- Cuthbert and Buckman (2005): Charge contrast imaging of fine-scale microstructure and compositional variation in garnet using the ESEM
- Dalton and Lane (1996): Electron microprobe analysis of Ca in olivine close to grain boundaries: the problem of secondary X-ray fluorescence
- Devine et al (1995): Comparison of microanalytical methods for estimating H2O contents of silicic volcanic glasses
- Erickson et al (2013): Correlating planar microstructures in shocked zircon from the Vredefort Dome at multiple scales: crystallographic modeling, external and internal imaging, and EBSD structural analysis
- Fialin et al (2001): Fe3+/Fe(all) vs Fe La peak energy for minerals and glasses: recent advances with epma
- Goldoff et al (2012): Characterization of fluor-chlorapatites by electron probe microanalysis with a focus on time-dependent intensity variation of halogens
- Heaney et al (2001): Focused ion beam milling: a method of site-specific sample extraction for microanalysis of Earth and planetary materials
- Hettmann et al (2012): The sulfur speciation in S-bearing minerals: new constraints by a combination of electron microprobe and DFT calculations with special reference to sodalite-group minerals
- Huddlestone-Holmes, Cameron R., and Richard A.: Getting the inside story: using computed X-ray tomography to study inclusion trails in garnet porphyroblasts." American Mineralogist 90.11-12 (2005): ea1-ea17
- Humphreys et al (2006): SIMS investigation of electron-beam damage to hydrous, rhyolitic glasses: implications for melt inclusion studies
- Jercinovic et al (2005): Analytical perils (and progress) in electron microprobe trace element analysis applied to geochronology: background acquisition, interferences, and beam irradiation effects
- Kerrick et al (1978): The Role of Carbon Film Thickness in Electron Microprobe Analysis
- King et al (2002): Analytical techniques for volatiles: a case study using intermediate (andesitic) glasses
- Lamb et al (2012): Determination of Fe3+/Fe2+ using the electron microprobe: a calibration for amphiboles
- Lane and Dalton (1994): Electron microprobe analysis of geological carbonates
- McGuire, Francis and Dyar (1992): Mineral standards for electron microprobe analysis of oxygen
- Morgan and London (1996): Optimizing the electron microprobe analysis of hydrous alkali aluminosilicate glasses
- Morgan and London (2005): Effect of current density on the electron microprobe analysis of alkali aluminosilicate glasses
- Nash (1992): Analysis of oxygen with the electron microprobe: applications to hydrated glass and minerals
- Nielsen and Sigurdsson (1981): Quantitative methods for electron microprobe analysis of sodium in natural and synthetic glasses
- Prior et al (1999): The application of electron backscatter diffraction and orientation contrast imaging in the SEM to textural problems in rocks
- Pyle et al (2005): Contributions to precision and accuracy of monazite microprobe ages
- Stormer et al (1993): Variation of F and Cl X-ray intensity due to anisotropic diffusion in apatite during electron microprobe analysis Note: there is an addendum to this article (see my list of references)
- Watt et al (2000): Charge contrast imaging of geological materials in ESEM
- Williams, Ferrell and Carpenter (1988): CHEMOD: An automated chemical and modal analysis technique
- Witter and Kuehner (2004): A simple empirical method for high-quality electron microprobe analysis of fluorine at trace levels in Fe-bearing minerals and glasses