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A calibration procedure for the detection efficiency of energy dispersive X-ray spectrometers (EDS) used in combination with scanning electron microscopy (SEM) for standardless electron probe microanalysis (EPMA) is presented. The procedure is based on the comparison of X-ray spectra from a reference material (RM) measured with the EDS to be calibrated and a reference EDS. The RM is certified by the line intensities in the X-ray spectrum recorded with a reference EDS and by its composition. The calibration of the reference EDS is performed using synchrotron radiation at the radiometry laboratory of the Physikalisch-Technische Bundesanstalt. Measurement of RM spectra and comparison of the specified line intensities enables a rapid efficiency calibration on most SEMs. The article reports on studies to prepare such a RM and on EDS calibration and proposes a methodology that could be implemented in current spectrometer software to enable the calibration with a minimum of operator assistance.
Scanning electron microscopes are usually equipped with energy-dispersive X-ray detectors for electron probe microanalysis. This widespread analytical method allows investigators to determine the elemental composition of specimens with a spatial resolution of about 1 µm. However, owing to the electron-specimen interaction, the emitted spectra reveal, in addition to characteristic lines, also a high level of continuous bremsstrahlung background. As a result, elements with low concentrations cannot be identified. The minimum detection limit can be diminished by two orders of magnitude if the characteristic lines are excited as fluorescence by an additional x-ray source. In this case, the emergence of bremsstrahlung is considerably reduced. Combining a high-brilliance microfocus x-ray tube with efficient polycapillary optics enables one to realize an experimental arrangement for performing local fluorescence analysis at the same point where the electron beam hits the sample. The polycapillary optics under consideration focuses the emitted x-radiation onto focal spots between 30 and 100 µm in diameter. Count rates of several thousands cps have been achieved. Elemental maps have been obtained by means of the motorized specimen stage of the microscope. Copyright © 2005 John Wiley & Sons, Ltd.
TEM Characterization of the Interface Quality of MOVPE Grown Strained InGaAs/GaAs Heterostructures
(1995)
Quality assurance according to ISO or EN norms entails a periodical check of critical instrumental parameters. Not yet all commercial software purchased with instruments supports the related measurements and their fast evaluation. EDXTOOLS consist of a programme library which complements the existing software for electron excited energy dispersive X-ray spectrometry (EDS) in this respect. EDXTOOLS can be used to check the detection efficiency by the evaluation of the L/K intensity ratio in a copper or nickel spectrum or by the calculation of the thickness of absorbing detector layers from experiments, which can be performed on any scanning electron microscope. Moreover, measured spectra can be modified by the transmission curve of absorbing media to estimate their influence on the result of quantitative analysis. EDXTOOLS allow the determination of the signal to background ratio from an Fe-55 spectrum and the fitting of measured FWHM's of K-lines to find the resolution curve DE = Ö{DE 2el + DE 2det}. They are completed by the possibility of calculating EDX spectra for the K-lines of light elements and to compare the resulting spectra for different formulae, physical data tables, and detector parameters chosen for the calculation. EDXTOOLS are written in MATLAB®, a wide spread interpreter language. This has the advantage that the programmes are readable text files. A user can check each computational step and modify it. The installation of MATLAB® and its optimization toolbox is necessary to work with EDXTOOLS.