High-power-load DCLM monochromator for a computed tomography program at BMIT at energies of 25 – 150 keV

The research program at the biomedical imaging facility requires a high-flux hard-X-ray monochromator that can also provide a wide beam. A wide energy range is needed for standard radiography, phase-contrast imaging, K-edge subtraction imaging and monochromatic beam therapy modalities. The double-crystal Laue monochromator, developed for the BioMedical Imaging and Therapy facility, is optimized for the imaging of medium- and large-scale samples at high energies with the resolution reaching 4   µ m. A pair of 2   mm-thick Si(111) bent Laue-type crystals were used in fixed-exit beam mode with a 16   mm vertical beam offset and the first crystal water-cooled. The monochromator operates at energies from 25 to 150   keV, and the measured size of the beam is 189   mm (H)   ×   8.6   mm (V) at 55   m from the source. This paper presents our approach in developing a complete focusing model of the monochromator. The model uses mechanical properties of crystals and benders to obtain a finite-element analysis of the complete assembly. The modeling results are compared and calibrated with experimental measurements. Using the developed analysis, a rough estimate of the bending radius and virtual focus (image) position of the first crystal can be made, which is also the real source for the second crystal. On the other hand, by measuring the beam height in several points in the SOE-1 hutch, the virtual focus of the second crystal can be estimated. The focusing model was ...
Source: Journal of Synchrotron Radiation - Category: Physics Authors: Tags: DCLM hard X-ray monochromator X-ray imaging. Laue – Laue monochromator beamlines Source Type: research
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