Electron Microprobe Notes: References

REFERENCES

Adler I, 1966, X-ray Emission Spectrography in Geology, Elsevier, 258 pp.
Albee AA & Chodos A, 1970, Semiquantitative electron microprobe determination of Fe²⁺/Fe³⁺ and Mn²⁺/Mn³⁺ in oxides and silicates and its application to petrologic problems: American Mineralogist 55:491-501.
Albee AL & Ray L, 1970, Correction factors for electron probe microanalysis of silicates, oxides, carbonates, phosphates and sulfates: Analytical Chemistry 42:1408-1414.
Anderson CA, ed., 1973, Microprobe Analysis, John Wiley & Sons, 571 pp.
Anderson IM, Carter CB & Bentley J, 1995, The secondary characteristic fluorescence correction in the EPMA, Microbeam Analysis (MAS Proceedings), 213-214.
Anderson IM, Bentley J & Carter CB, 1995, The secondary fluorescence correction for X-ray microanalysis in the analytical electron microscope: Journal of Microscopy 178:226-239.
Anderson IM, Bentley J & Carter CB, 1997, Secondary fluorescence correction formulae for X-ray microanalysis - I. Parallel-sided thin foil, wedge, and bulk specimens: Ultramicroscopy 68:77-94.
Anderson IM, Bentley J & Carter CB, 1997, Secondary fluorescence correction formulae for X-ray microanalysis - II. Self-supporting discs: Ultramicroscopy 68:95-107.
Armstrong JT, 1988, Quantitative analysis of silicate and oxide materials: comparison of Monte Carlo, ZAF, and f(rZ) procedures, in Newbury DE, ed., Microbeam Analysis:239-246.
Armstrong JT, 1988, Bence-Albee after 20 years: review of the accuracy of a-factor correction procedures for oxide and silicate minerals, in Newbury DE, ed., Microbeam Analysis:469-476.
Armstrong JT, 1988, Accurate quantitative analysis of oxygen and nitrogen with a W/Si multilayer crystal, in Newbury DE, ed., Microbeam Analysis, 301-304.
Armstrong JT, 1993, Effects of carbon coat thickness and contamination on quantitative analysis: a new look at an old problem: Proceedings of the 27th Annual MAS Meeting, S13-14.
Bastin GF & Heijligers HJM, 1991, Quantitative electron probe microanalysis of ultra-light elements (boron - oxygen), in Heinrich KFJ & Newbury DE, eds., Electron Probe Quantitation, Plenum Press, NY, 145-161.
Bastin GF & Heijligers HJM, 1992, Present and future of light element analysis with electron beam instruments: Microbeam Analysis 1:61-73.
Bastin GF & Heijligers HJM, 1992, Quantitative epma of nitrogen: a tricky element in the electron-probe microanalysis: Proceeding of 50th Annual Meeting of Electron Microscopy Society of America, 1622-1623.
Bastin GF & Heijligers HJM, 1991, Nonconductive specimens in the electron probe microanalyzer - a hitherto poorly discussed problem, in Heinrich KFJ & Newbury DE, eds., Electron Probe Quantitation, Plenum Press, NY, 163-175.
Bayard M, 1973, Applications of the electron microprobe to the analysis of free particulates, in Anderson CA, ed., Microprobe Analysis, Wiley, 323-348.
Beaman DR & Isasi JA, 1972, Electron Beam Microanalysis, ASTM, Special Technical Publication 506, 79 pp.
Bence AE & Albee AL, 1968, Empirical correction factors for the electron microanalysis of silicates and oxides: Journal of Geology 76:382.
Bertin EP, 1978, Introduction to X-ray Spectrometric Analysis, Plenum Press, 485 pp.
Birks LS, 1971, Electron Probe Microanalysis, 2nd ed., Wiley Interscience, 190 pp.
Bustin, R. Marc, M. Mastalerz & K. Wilks, 1993, Direct determination of carbon, oxygen and nitrogen content in coal using the electron microprobe: Fuel 72:181-185.
Dalton JA & Lane SA, 1996, Electron microprobe analysis of Ca in olivine close to grain boundaries: The problem of secondary X-ray fluorescence: American Mineralogist 81:194-201.
Devine JD, Gardner JE, Brack HP, Layne GD & Rutherford MJ, 1995, Comparison of microanalytical methods for estimating H2O contents of silicic volcanic glasses: American Mineralogist 80:319-328.
Donovan JJ, Snyder DA & River ML, 1993, An improved interference correction for trace element analysis: Microbeam Analysis 2:23-28.
Echlin P, 1978, Coating techniques for scanning electron microscopy and x-ray microanalysis: SEM 1978 1:109-132.
Fialin M & Remond G, 1992, Problems with oxygen analysis in the system MgO-Al2O3-SiO2 with the electron microprobe: Proceeding of 50th Annual Meeting of Electron Microscopy Society of America, 1624-25.
Fialin M & Remond G, 1993, Electron probe microanalysis of oxygen in strongly insulating oxides: Microbeam Analysis 2:179-189.
Finger LW, 1971, Determination of dead-time in X-ray detector systems: Geophysical Laboratory Yearbook '70, 275.
Fleet ME & Mumin AH, 1997, Gold-bearing arsenian pyrite and marcasite and aresenopyrite from Carlin Trend gold deposits and laboratory synthesis: American Mineralogist 82:182-193.
Ganguly J, Bhatacharya RN & Chakraborty S, 1988, Convolution effect in the determination of compositional profiles and diffusion coefficients by microprobe step scans: American Mineralogist 73:901-909.
Ganguly J, Chakraborty S, Sharp TG & Rumble D, 1996, Constraint on the time scale of biotite-grade metamorphism during Acadian orogeny from a natural garnet-garnet diffusion couple: American Mineralogist 81:1208-1216.
Goldstein JJ, Choi SK, van Loo FJJ, Heijliger HJM, Dijkstra JM & Bastin GF, 1991, The influence of surface oxygen contamination of bulk empa of oxygen in ternary titanium-oxygen-compounds: in Howitt DG, ed., Microbeam Analysis, 57-58.
Goldstein JI & Yakowitz H, eds., 1975, Practical Scanning Electron Microscopy, Plenum Press, 582 pp.
Goldstein JI, Newbury DE, Echlin P, Joy DC, Fiori C & Lifshin E, 1981, Scanning Electron Microscopy and X-ray Microanalysis, Plenum Press, 673 pp.
Gupta, BL, 1991, Ted Hall and the science of biological microprobe x-ray analysis: Scanning Microscopy 5:379-426.
Hanchar JM & Rudnick RL, 1995, Revealing hidden structures: the application of cathodoluminescence and back-scattered electron imaging to dating zircons from lower crustal xenoliths: Lithos 35:289-303.
Heinrich KFJ, 1981, Electron Beam X-ray Microanalysis, Van Nostrand Reinhold Co., 578 pp.
Howie RA & Smith JV, 1966, X-ray emission microanalysis of rock-forming minerals V. Orthopyroxenes: Journal of Geology 74:443-462.
Jenkins R & DeVries JL, 1982, Practical X-ray Spectrometry, 2nd ed., Springer-Verlag, 188 pp.
Kanaya, K. & Okayama, S, 1972, J. Phys. D. Appl. Phys. 5:43.
Kane WT, 1973, Applications of the electron microprobe in ceramics and glass technology: in Anderson CA, ed., Microprobe Analysis, Wiley, 241-270
Keil K, 1967, The electron microprobe x-ray analyzer and its application in mineralogy: Fortschr. Miner. 44:4-66.
Keil K, 1973, Applications of the electron microprobe in geology: in Anderson, C.A., ed., Microprobe Analysis, Wiley, 189-239.
Kerrick DM, Eminhizer LB & Villaume JF, 1973, The role of carbon film thickness in electron microprobe analysis: American Mineralogist 58:920-925.
Kevex Corporation, 1983, Energy Dispersive X-Ray Microanalysis: An Introduction, 52 pp.
Kniseley RN & Laabs FC, 1973, Applications of cathodoluminescence in electron microprobe analysis: in Anderson CA, ed., Microprobe Analysis, Wiley, 371-382.
Knowles CR, Smith JV, Bence AE & Albee AL, 1968, X-ray emission microanalysis of rock-forming minerals VII. Garnets: Journal og Geology 77:439-451.
Lane SJ & Dalton JA, 1994, Electron microprobe analysis of geological carbonates: American Mineralogist 79:745-749.
Le Maitre RW, 1982, Numerical Petrology, Elsevier, 260 pp.
Lechene CP & Warner RR, 1977, Ultramicroanalysis: X-ray spectrometry by electron probe excitation: Annual Review of Biophysics and Bioengineering. 6:57-85.
Liebhafsky HA, Pfeiffer HG, Winslow EH & Zemany PD, 1972, X-rays, Electrons and Analytical Chemistry, John Wiley & Sons, 566 pp.
Long JVP, 1976, Electron probe microanalysis: in Zussman J, ed., Physical Methods in Determinative Mineralogy, Academic Press, 215-260.
Long JVP & Agrell SO, 1965, The cathodoluminescence of minerals in thin section: Mineralogical Magazine 34 (Tilley Vol), 318-326.
Love G & Scott VD, 1978, J. Phys. D 11: 1369.
Marshall DJ ,1988, Cathodoluminescence of Geological Materials, Unwin Hyman, 146 pp. Original edition out of print, reproduced by D. Marshall , Relion Industries, PO Box 12, Bedford MA 01730 (~$80)
Marinenko RB, 1991, Standards for Electron Probe Microanalysis: in Heinrich KFJ & Newbury DE, eds., Electron Probe Quantitation, Plenum, 251-260.
Mastalerz M & Bustin RM, 1993, Variation in elemental composition of macerals: An example of the application of electron microprobe to coal studies: International Journal of Coal Geology 22:83-89.
-
Maurice F, Meny L & Tixier R, eds., 1979, Microanalysis and Scanning Electron Microscopy, Les Editions de Physique, 530 pp.
McGuire AV, Francis CA, & Dyar MD, 1992, Mineral standards for electron microprobe analysis of oxygen, American Mineralogist, 77, 1087-1091.
McKinley TD, Heinrich KFJ & Wittry DB, 1966, The Electron Microprobe, John Wiley & Sons, 1030 pp.
Morgan GB & London D, 1996, Optimizing the electron microprobe of hydrous alkali aluminosilicate glasses, American Mineralogist, 81, 1176-1185.
Muller RO, 1972, Spectrochemical Analysis by X-ray Fluorescence, Plenum Press, 326 pp.
Nielsen, C.H. and Sigurdsson, H, 1981, Quantitative methods for electron microprobe analysis of sodium in natural and synthetic glasses, American Mineralogist, 66, 547-552.
Norrish K & Chappell BW, 1976, X-ray fluorescence spectrography: in Zussman, J (ed.), Physical Methods in Determinative Mineralogy, Academic Press, p. 215-260.
O'nions RK & Smith DGW, 1971, Investigations of the I, II, III x-ray emission spectra of Fe by electron microprobe, Part 2: The Fe I, II, III spectra of Fe and Fe-Ti oxides: American Mineralogist 56:1452-1463.
Piccoli P & Candela, P, 1994, Apatite in felsic rocks: a model for the estimation of initial halogen concentrations in the Bishop Tuff and Tuolumne instrusive suite magmas: American Journal of Science 294:92-135.
Potts PJ, 1987, A Handbook of Silicate Rock Analysis, Blackie, 622 pp.
Potts PJ, Bowles JFW, Reed, SJB & Cave MR, 1995, Microprobe Techniques in the Earth Sciences, Chapman & Hall, 419 pp.
Pouchou JL & Pichoir F, 1984, A new model for quatitative X-ray microanalysis, Part II: Application to in-depth analysis of heterogeneous samples: Recherche Aerospatiale 1984-5:47-65.
Pouchou JL & Pichoir F, 1985, "PAP" f(rZ) procedure for improved quantitative microanalysis: in Armstrong, JT, ed., Microbeam Analysis 1985, 104-106.
Ramsden, Anthony R. and French, David H, 1990, Routine trace-element capabilities of electron microprobe analysis in mineralogical investigations: an empirical evaluation of performance using spectrochemical standard glasses. Canadian Mineralogist28, 171- 180.
Raudsepp, M, 1995, Recent advances in the electron-probe micro- analysis of minerals for the light elemetns. Canadian Mineralogist, 33, 203-218
RCA Corporation, 1974, Electro-Optics Handbook, 255 pp.
Reed SJB, 1993, Electron Microprobe Analysis, 2nd edition, Cambridge University Press, 326 pp.
Reed, SJB, 1996, Electron Microprobe Analysis and Scanning Electron Microscopy in Geology, Cambridge University Press. Ribbe, PH & Smith, JV, 1966, X-ray emission microanalysis of rock-forming minerals IV. Plagioclase feldspars, J. Geol., 74, 217-233.
Roeder, P, 1985, Electron-microprobe analysis of minerals for rare- earth elements: use of calculated peak-overlap corrections, Canadian Mineralogist, 23, 263-271.
Rucklidge JC, Gasparrini E, Smith JV & Knowles CR, 1971, X- ray emission microanalysis of rock-forming minerals VIII. Amphiboles: Canadian Journal of Earth Science 8, 1171-1183
Russ JC, 1984, Fundamentals of Energy Dispersive X-ray Analysis, Butterworths, 308 pp.
Sippel, R.F. and Glover, ED, 1965, Structures in carbonate rocks made visible by luminescence petrography, Science, 150, 1283-1287.
Smith DGW, 1976, Short Course in Microbeam Techniques, Mineralogical Association of Canada, 183 pp.
Smith, D.G.W. and O'nions, R.K, 1971, Investigations of the I, II, III x-ray emission spectra of Fe by electron microprobe, Part 1: Some aspects of the Fe I, II, III spectra from metallic iron and hematite, Brit. J. Appl. Physics, 4, 147-159.
Smith, D.G.W. and O'nions, R.K, 1972, Investigations of bonding in some oxide minerals by oxygen K emission spectroscopy, Chem. Geol., 9, 29-43 and 145-146.
Smith, J.V, 1965, X-ray emission microanalysis of rock-forming minerals I. Experimental techniques, J. Geol., 73, 830-864.
Smith JV, 1966, X-ray emission microanalysis of rock-forming minerals VI. Clinopyroxenes near the diopside-hedenbergite join, J. Geol., 74, 463-477.
Smith JV, 1966, X-ray emission microanalysis of rock-forming minerals II. Olivines: Journal of Geology 74, 1-16.
Smith JV & Ribbe PH, 1966, X-ray emission microanalysis of rock-forming minerals III. Alkali feldspars: Journal of Geology 74, 197-216.
Smith JV & Stenstrom RC,1965, Electron-excited luminescence as a petrologic tool, Journal of Geology 73, 627-635.
Snetsinger KG, Bunch TE & Keil K, 1968, Electron microprobe analysis of vanadium in the presence of titanium: American Mineralogist 53, 1770-1773
Spray, J. G. and Rae, D. A. (1995) Quantitative electron-microprobe analysis of alkali silicate glasses: a review and user guide. Canadian Min., 33, 323-332.
Steele, IM, 1991, Digitized cathodoluminescence imaging of minerals, Scanning Microscopy 5: 611-618.
Stormer, John C. Jr., Pierson, Milton L. and Tacker, Robert C, 1993, Variation of F and Cl X-ray intensity due to anisotropic diffusion in apatite during electron microprobe analysis: American Mineralogist 78: 641-648.
Stormer, John C. Jr., and Pierson, Milton L, 1995, Variation of F and Cl X-ray intensity and electron microprobe analysis of apatite: An addendum, Unpublished manuscript (3 pages)
Sweatman TR & Long, JVP, 1969, Quantitative electron-probe microanalysis of rock-forming minerals: Journal of Petrology 10: 332-379, (note: correction to one equation appeared later)
Sweatman TR & Long JVP, 1969, Quantitative electron-probe microanalysis of rock-forming minerals: Journal of Petrology 19: 2, 332.
Till R, 1974, Statistical Methods for the Earth Scientist, John Wiley & Sons, 154 pp.
Vassamillet, L.F. and Caldwell, V.E. (1969) Electron-probe microanalysis of alkali metals in glasses", J. Applied Physics, 40, 1637-1643.
Walker and Howitt (1989) Field induced migration of sodium in soda-silicate glasses during scanning electron microscopy: Scanning 11: 5-11.
Welton JE, 1984, SEM Petrology Atlas, American Association of Petroleum Geologists.
White EW, 1973, Applications of soft x-ray spectroscopy to chemical bonding studies with the electron microprobe, in Anderson CA, ed., Microprobe Analysis, Wiley, 349-369.
Williams KL, 1987, Introduction to X-ray Spectrometry, Allen & Unwin, 370 pp.
Willich, P, 1992, EPMA of submicron coatings containing ultralight elements, in Proceeding of 50th Annual Meeting of Electron Microscopy Society of America (Bailey, Bentley and Small, Eds), p 1628-29 (H2 Jet)
Wittry, DB, 1973, Applications of the electron microprobe to solid- state electronics, in Anderson, C.A., ed., Microprobe Analysis, Wiley, 123-187
Ziebold TO, 1967, Precision and sensitivity in electron microprobe analysis: Analytical Chemistry 39: 858.
Ziebold TO & Ogilvie RE, 1963, Quantative analysis with the electron microanalyzer: Analytical Chemistry 35: 621-627.
Ziebold TO & Ogilvie RE, 1964, An empirical method for electron microanalyis: Analytical Chemistry 36: 322-327.