Add to ORKGElectron probe x-ray microanalysis of nonconductiv samples can be distorted b electrical field formation under the grounded surface. This posibility is demonstarted by Monte carlo modeling
A novel approach to the quantitative analysis of thinned samples, which exploits the finite and vari...
The overview of the history of quantitative x-ray microanalysis shows the efficiency of the use of s...
This article describes the limitations of proximal probe lithography due to electrons that are mirro...
The influence of a lack of sufficient electrical conductivity on the results of quantitative electro...
In a low vacuum environment, electric fields generated by ionized gas molecules and sub-surface trap...
There are two fundamental considerations in preparing samples for electron probe microanalysis (EPMA...
177 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1982.A computer-based Monte Carlo ...
International audienceThe presence of charges perturbs the microanalysis-X on insulator samples. Att...
Quantitative electron probe analysis is based on models based on the physics or x-ray generation, em...
Electron probe microanalysis (EPMA) is based on the comparison of characteristic intensities induced...
Quantitative analysis of homogeneous bulk unknowns using an electron probe microanalyzer requires th...
The basic principles of X-ray microanalysis of thin surface films and stratified targets are summari...
We report new measurements of the surface ionization Phi(0) for Ge K alpha and L alpha X-rays on an ...
L'utilisation d'une microsonde électronique en incidence rasante pour la caractérisation des couches...
Des couches minces de plus de 0,2 µm d'épaisseur sont déterminés par les méthodes établies pour l'ét...
A novel approach to the quantitative analysis of thinned samples, which exploits the finite and vari...
The overview of the history of quantitative x-ray microanalysis shows the efficiency of the use of s...
This article describes the limitations of proximal probe lithography due to electrons that are mirro...
The influence of a lack of sufficient electrical conductivity on the results of quantitative electro...
In a low vacuum environment, electric fields generated by ionized gas molecules and sub-surface trap...
There are two fundamental considerations in preparing samples for electron probe microanalysis (EPMA...
177 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1982.A computer-based Monte Carlo ...
International audienceThe presence of charges perturbs the microanalysis-X on insulator samples. Att...
Quantitative electron probe analysis is based on models based on the physics or x-ray generation, em...
Electron probe microanalysis (EPMA) is based on the comparison of characteristic intensities induced...
Quantitative analysis of homogeneous bulk unknowns using an electron probe microanalyzer requires th...
The basic principles of X-ray microanalysis of thin surface films and stratified targets are summari...
We report new measurements of the surface ionization Phi(0) for Ge K alpha and L alpha X-rays on an ...
L'utilisation d'une microsonde électronique en incidence rasante pour la caractérisation des couches...
Des couches minces de plus de 0,2 µm d'épaisseur sont déterminés par les méthodes établies pour l'ét...
A novel approach to the quantitative analysis of thinned samples, which exploits the finite and vari...
The overview of the history of quantitative x-ray microanalysis shows the efficiency of the use of s...
This article describes the limitations of proximal probe lithography due to electrons that are mirro...