Add to ORKGWe report on a laboratory EXAFS spectrometer optimized for transmission dispersive mode. Absorption edges ranging from 6 to 20 keV can be studied. Factors determining energy range and resolution are detailed. A new asymmetric geometry which allows to use all the lattice planes of the dispersing crystal is described and the choice of the best plane analysed. EXAFS spectra of Cu metal and Cu acetate, obtained on this laboratory facility, are compared to the corresponding spectra recorded on the French synchrotron facility (LURE)
A method for energy-dispersive X-ray diffraction mapping is presented, using a conventional low-powe...
This paper is reviewing a number of artefactual limitations in the current EXAFS analysis. In conven...
308-314The EXAFS data obtained by employing laboratory set-ups using X-ray films as detectors, has ...
A laboratory dispersive mode spectrometer, capable of operating in either the analysing crystal tran...
EXAFS spectroscopies extract structural information from a sample by analyzing its X-ray absorption ...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
New developments in the description and modeling of Highly Annealed Pyrolytic Graphite (HAPG) mosaic...
By speeding up a conventional X-ray monochromator by a factor of 100 using the quick scanning EXAFS ...
By speeding up a conventional X-ray monochromator by a factor of 100 using the quick scanning EXAFS ...
The EXAFS spectroscopy equipment constructed from an asymmetrical cut flat monochromator and PSPC is...
The EXAFS spectroscopy equipment constructed from an asymmetrical cut flat monochromator and PSPC is...
In order to be independent of poor availability of synchrotron beamtime a laboratory EXAFS spectrome...
The EXAFS spectra of Cu and Pd foil from many different beamlines and synchrotrons are compared to a...
A method for energy-dispersive X-ray diffraction mapping is presented, using a conventional low-powe...
This paper is reviewing a number of artefactual limitations in the current EXAFS analysis. In conven...
308-314The EXAFS data obtained by employing laboratory set-ups using X-ray films as detectors, has ...
A laboratory dispersive mode spectrometer, capable of operating in either the analysing crystal tran...
EXAFS spectroscopies extract structural information from a sample by analyzing its X-ray absorption ...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
This chapter has demonstrated that high quality XANES and EXAFS spectra can be collected with labora...
New developments in the description and modeling of Highly Annealed Pyrolytic Graphite (HAPG) mosaic...
By speeding up a conventional X-ray monochromator by a factor of 100 using the quick scanning EXAFS ...
By speeding up a conventional X-ray monochromator by a factor of 100 using the quick scanning EXAFS ...
The EXAFS spectroscopy equipment constructed from an asymmetrical cut flat monochromator and PSPC is...
The EXAFS spectroscopy equipment constructed from an asymmetrical cut flat monochromator and PSPC is...
In order to be independent of poor availability of synchrotron beamtime a laboratory EXAFS spectrome...
The EXAFS spectra of Cu and Pd foil from many different beamlines and synchrotrons are compared to a...
A method for energy-dispersive X-ray diffraction mapping is presented, using a conventional low-powe...
This paper is reviewing a number of artefactual limitations in the current EXAFS analysis. In conven...
308-314The EXAFS data obtained by employing laboratory set-ups using X-ray films as detectors, has ...