A versatile interactive program for quantifying bulk samples and particles in electron probe microanalysis is presented. The program was developed with the purpose of allowing the analyst to choose among different matrix-correction models and several expressions for the parameters involved. It was written in Pascal and runs on any IBM compatible personal computer with no special requirements. The program was tested on a number of geological and synthetic samples of known compositions. Special applications which show the usefulness of the program are described. Copyright Ó 1999 John Wiley & Sons, Ltd
A fourfold series of microprobe analyses was performed. The materials examined consisted of five spe...
The electron microprobe produces two-dimensional images of elemental distributions by displaying X-r...
Scanning electron probe microanalysis has grown over the pastthree decades into a powerful technique...
A method is discussed to use the basics of quantitative electron probe microanalysis (EPMA) programs...
A FORTRAN program is given which will (1) calculate atom and weight percentages from a given chemica...
A detailed description is given of the procedure followed in the development of a thin film anal. so...
Quantitative Electron Probe Micro Analysis (EPMA) is carried out by non-dispersive energy analysis ...
Abstract. Quantitative analysis can be done very accurately with the aid of computer programs based ...
Electron probe microanalysis (EPMA) offers the possibility to investigate very thin films having a t...
Electron probe microanalyses in metallurgy and geology performed by FORTRAN progra
Une sonde électronique, équipée d'un spectromètre non-dispersif de rayons-X et d'un système de digit...
Abstract. This article summarizes the basic principles of electron probe microanalysis, with example...
International audienceXFILM is a computer program for determining the thickness and composition of t...
En microanalyse par rayons X, de nouvelles possibilités intéressantes d'application de l'informatiqu...
The development of EDATA2 was stimulated by the proliferation of mixed energy dispersive/wavelength ...
A fourfold series of microprobe analyses was performed. The materials examined consisted of five spe...
The electron microprobe produces two-dimensional images of elemental distributions by displaying X-r...
Scanning electron probe microanalysis has grown over the pastthree decades into a powerful technique...
A method is discussed to use the basics of quantitative electron probe microanalysis (EPMA) programs...
A FORTRAN program is given which will (1) calculate atom and weight percentages from a given chemica...
A detailed description is given of the procedure followed in the development of a thin film anal. so...
Quantitative Electron Probe Micro Analysis (EPMA) is carried out by non-dispersive energy analysis ...
Abstract. Quantitative analysis can be done very accurately with the aid of computer programs based ...
Electron probe microanalysis (EPMA) offers the possibility to investigate very thin films having a t...
Electron probe microanalyses in metallurgy and geology performed by FORTRAN progra
Une sonde électronique, équipée d'un spectromètre non-dispersif de rayons-X et d'un système de digit...
Abstract. This article summarizes the basic principles of electron probe microanalysis, with example...
International audienceXFILM is a computer program for determining the thickness and composition of t...
En microanalyse par rayons X, de nouvelles possibilités intéressantes d'application de l'informatiqu...
The development of EDATA2 was stimulated by the proliferation of mixed energy dispersive/wavelength ...
A fourfold series of microprobe analyses was performed. The materials examined consisted of five spe...
The electron microprobe produces two-dimensional images of elemental distributions by displaying X-r...
Scanning electron probe microanalysis has grown over the pastthree decades into a powerful technique...