[B._Beckhoff,_et_al.]_Handbook_of_Practical_X-Ray_(b-ok.org).pdf

Adv x ray 05 1969 60 arai t soft and ultrasoft x ray

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fluorescence analysis of light elements. Adv X-ray Anal 12 , 496–505 (1969) 60. Arai T, Soft and ultrasoft X-ray fluorescent spectrometer using total reflection monochromator. Japanese J Appl Phys 21 , 1347–1358 (1982) Arai T, Sohmura T, Tamenori H, Determination of boron oxide in glass by X-ray fluorescence analysis. Adv X-ray Anal 26 , 423–430 (1983) Arai T, Ohara S, Determination of oxygen and nitrogen in various materials by X-ray fluorescence spectrometry. Adv X-ray Anal 27 , 547–556 (1984) Arai T, Measurement of soft and ultrasoft X-rays with total reflection mono- chromator. Adv X-ray Anal 30 , 213–223 (1987) 61. Sugimoto K, Akiyoshi T, Kondou T, XRF determination of carbon in pig iron. Bunseki Kagaku 37 , 589–594 (1988) [in Japanese] 62. Zemany PD, X-ray spectrometry Chapter 4. Precision and Accuracy. Marcel Dekker, New York, 69–110 (1978) 63. Lachance GR, Traill RJ, A practical solution to the matrix problem in X-ray analysis. Part 1: Method. Can Spectrosc 11 , 43–48 (1966) 64. Rassberry SD, Heinrich KFJ, Calibration for interelement effects in X-ray flu- orescence analysis. Anal Chem 46 , 81–89 (1974) 65. Beattie HJ, Brissey RM, Calibration method for X-ray fluorescence spectrom- etry. Anal Chem 26 , 980–983 (1954) 66. Rousseau RM, Why the fundamental algorithm is so fundamental. Adv X-ray Anal 37 , 639–646 (1994) 67. Sherman J, The theoretical derivation of fluorescent X-ray intensities from mixtures. Spectrochim Acta 7 , 283–306 (1955) 68. Shiraiwa T, Fujino N, Theoretical calculation of fluorescent X-ray intensities in fluorescent X-ray spectrochemical analysis. Japanese J Appl Phys 5 , 54–67 (1966) 69. Kulenkampff H, Annalen der Physik 69 , 548 (1922) 70. Criss JW, Birks LS, Calculation methods for fluorescent X-ray spectrometry empirical coefficients vs. fundamental parameters. Anal Chem 40 , 1080–1086 (1968) Criss JW, Birks LS, Gilfrich JV, Versatile X-ray analysis program combin- ing fundamental parameters and empirical coefficients. Anal Chem 50 , 33–37 (1978) 71. Gilfrich JV, Birks LS, Spectral distribution of X-ray tubes for quantitative X-ray fluorescence analysis. Anal Chem 40 , 1077–1080 (1968) Gilfrich JV, Burkhalter PG, Whitlock RR, Warden ES, Birks LS, Spectral dis- tribution of a thin window rhodium target X-ray spectrographic tube. Anal Chem 43 , 934–936 (1971) Brown DB, Gilfrich JV, Measurement and Calculation of Absolute X-Ray In- tensities. J Appl Phys 71 , 4044–4046 (1971) Brown DB, Gilfrich JV, Peckerar MC, Measurement and calculation of absolute intensities of X-ray spectra. J Appl Phys 46 , 4537–4540 (1975)
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References 31 72. Arai T, T. Shoji, K. Omote, Measurement of the spectral distribution emitted from X-ray spectrographic tubes. Adv X-ray Anal 29 , 413–422 (1985) 73. Rousseau RM, Fundamental algorithm between concentration and intensity in XRF analysis. 1-Theory. X-ray Spectrom 13 , 115–120 (1984) Rousseau RM, Fundamental algorithm between concentration and intensity in XRF analysis. 2-Practical application. X-ray Spectrom 13 , 121–125 (1984) 74. Claisse F, Quintin M, Generalization of the Lachance-Traill method for the correction of the matrix effect in X-ray fluorescence analysis. Can Spectrosc 12 , 129–146 (1967) 75. Gould RW, X-ray spectrometry Chapter 11. Metals and alloys. Marcel Dekker, New York, 277–295 (1978) 76. Rickenbach JR, Some aspects of nondestructive X-ray spectrochemical analysis of alloys. Adv X-ray Anal
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