High quality quasi-parallel x-ray microbeams have an appreciable application value in the x-ray diffraction analysis technique, which is currently one of the most significant non-destructive analysis techniques. A simulation of… Click to show full abstract
High quality quasi-parallel x-ray microbeams have an appreciable application value in the x-ray diffraction analysis technique, which is currently one of the most significant non-destructive analysis techniques. A simulation of a parabolic single capillary is carried out based on the Monte Carlo simulation toolkit Geant4. The simulation results show that it is feasible to obtain high quality quasi-parallel x-ray microbeams based on a parabolic capillary and a traditional laboratorial x-ray source. We manufacture a parabolic capillary based on the simulation results. The physical parameters of the obtained x-ray beams are characterized by building an x-ray imaging system. The experimental results show that the x-ray beam with submicrometer size and almost zero divergence can be obtained from the traditional laboratorial x-ray source by utilizing a parabolic single capillary as a collimator.
               
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