Title :
High-resolution X-ray fluorescence microtomography of homogeneous samples
Author :
Simionovici, A. ; Chukalina, M. ; Schroer, C. ; Drakopoulos, M. ; Snigirev, A. ; Snigireva, I. ; Lengeler, B. ; Janssens, K. ; Adams, F.
Author_Institution :
ESRF, Grenoble, France
Abstract :
First experimental results of fluorescence microtomography with 6 /spl mu/m resolution obtained at ESRF, Grenoble, France, are described. The setup comprises high-quality optics (monochromator, mirror, focusing lenses) coupled to the high-energy/brilliance/coherence of the ID 22 undulator beamline. The tomographic setup allows precise measurements in the "pencil-beam" geometry. The image reconstruction is based on a modification of the algebraic reconstruction method but includes simplifications of the model. The quality and precision of the two-dimensional reconstructed elemental images of a phantom sample are encouraging. The method will be further refined and applied for the analysis of more complex inhomogeneous samples.
Keywords :
X-ray fluorescence analysis; computerised tomography; image reconstruction; medical image processing; ID 22 undulator beamline; algebraic reconstruction method; brilliance; coherence; focusing lenses; high-energy; high-quality optics; high-resolution X-ray fluorescence microtomography; homogeneous samples; image reconstruction; mirror; monochromator; more complex inhomogeneous samples; pencil-beam geometry; phantom sample; precision; quality; two-dimensional reconstructed elemental images; Coherence; Fluorescence; Focusing; Geometrical optics; Image reconstruction; Lenses; Mirrors; Optical coupling; Tomography; Undulators;
Journal_Title :
Nuclear Science, IEEE Transactions on
