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Proceedings Paper

Physical analysis of high-intensity focusing x-ray optics: doubly curved crystals vs. highly focusing polycapillaries
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Paper Abstract

Choosing the best performing x-ray optic for a specific x-ray fluorescence application is tricky since x-ray fluorescence requirements can vary from extremely small x-ray beams for spatially resolved measurements to intense, highly monochromatic beams for locating trace amounts of impurities in samples. Additionally, due to the wide variety of commercially available x-ray optics to choose from, each providing different outputs, one has to decide which optic suits one's application requirements best. Two such optics, a doubly curved crystal (DCC) optic and a monolithic polycapillary focusing optic, were examined for use in micro-beam x-ray fluorescence and low level impurity detection. In these two measurements, intense output beams are needed. With the two optics examined, the average CuKa x-ray intensities were 6 x 107 photons/sec-μm2 for the polycapillary optic and 8 x 105 photons/sec-μm2 for the DCC optic from a 20W sealed-tube, 120μm diameter Cu source. Thus, with an extremely low power source, the polycapillary output intensity was almost 100 times more than from the DCC optic. Because the spot sizes from the two optics were different, a better intensity comparison is insertion gain, which showed the polycapillary optic had an 8 times higher insertion gain than the DCC optic. In addition to intensity, lowering the minimum detectable limit (MDL) in x-ray fluorescence measurements requires highly monochromatic x-ray beams. Of the two optics examined, the DCC optic (with a 0.37mm Ni filter) produced an x-ray beam that would detect about a 20% lower impurity concentration than the polycapillary optic (with a 0.44mm Ni filter). In addition, the DCC optic's MDL can be improved, since this optic produces a highly monochromatic beam by diffraction, eliminating the need for a filter. On the other hand, the polycapillary optic transmits polychromatic x rays, requiring a filter to create a monochromatic beam from the polycapillary output, thereby reducing the characteristic line intensity. Thus we found the

Paper Details

Date Published: 23 October 2002
PDF: 10 pages
Proc. SPIE 4781, Advances in Laboratory-Based X-Ray Sources and Optics III, (23 October 2002); doi: 10.1117/12.453743
Show Author Affiliations
Sarah Formica, Univ. at Albany and X-Ray Optical Systems, Inc. (United States)
Susanne M. Lee, Univ. at Albany (United States)


Published in SPIE Proceedings Vol. 4781:
Advances in Laboratory-Based X-Ray Sources and Optics III
Ali M. Khounsary; Carolyn A. MacDonald, Editor(s)

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