MTU Cork Library Catalogue

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Principles of quantitative X-ray fluorescence analysis / R. Tertian and F. Claisse.

By: Tertian, R [author.].
Contributor(s): Claisse, F. (Fernand) [author.].
Material type: materialTypeLabelBookPublisher: London : Heyden, [1982]Copyright date: ©1982Description: xviii, 385 pages : illustgrations ; 24 cm.Content type: text Media type: unmediated Carrier type: volumeISBN: 0855017090 (hardback).Subject(s): Chemistry, Analytic | Fluorescence spectroscopy | X-ray spectroscopyDDC classification: 543.56
Contents:
Part I. X-ray Physics: Emission of characteristic x-ray spectra -- Absorption and scattering of x-rays -- Excitation sources, spectral distributions from x-ray tubes -- Part 2. Theory of x-ray fluorescence emission: Calculation of theoretical fluorescence intensities -- Interelement effects. Monochromatic excitation -- Polychromatic excitation. The equivalent wavelength -- Interelement effects. Polychromatic excitation -- Part 3. Quantitative analysis of homogeneous specimens: Classification of procedures in quantitative analysis -- The fundamental parameter method -- Numerical methods for compact specimens -- Numerical methods for diluted specimens -- Compensation methods -- Dilution methods -- The double dilution method -- Scattered radiation method -- Adsorption correction and thin-film methods -- Part 4. Heterogeneous specimens: Heterogeneity effects -- Part 5. Specimen preparation and measurement techniques: Specimen preparation -- Intensity measurement techniques.
Holdings
Item type Current library Call number Copy number Status Date due Barcode Item holds
General Lending MTU Bishopstown Library Lending 543.56 (Browse shelf(Opens below)) 1 Available 00045010
Total holds: 0

Includes bibliographical references and index.

Part I. X-ray Physics: Emission of characteristic x-ray spectra -- Absorption and scattering of x-rays -- Excitation sources, spectral distributions from x-ray tubes -- Part 2. Theory of x-ray fluorescence emission: Calculation of theoretical fluorescence intensities -- Interelement effects. Monochromatic excitation -- Polychromatic excitation. The equivalent wavelength -- Interelement effects. Polychromatic excitation -- Part 3. Quantitative analysis of homogeneous specimens: Classification of procedures in quantitative analysis -- The fundamental parameter method -- Numerical methods for compact specimens -- Numerical methods for diluted specimens -- Compensation methods -- Dilution methods -- The double dilution method -- Scattered radiation method -- Adsorption correction and thin-film methods -- Part 4. Heterogeneous specimens: Heterogeneity effects -- Part 5. Specimen preparation and measurement techniques: Specimen preparation -- Intensity measurement techniques.

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