Physics:Monochromatic wavelength dispersive x-ray fluorescence
Monochromatic wavelength dispersive x-ray fluorescence (MWD XRF) is an enhanced version of conventional wavelength-dispersive X-ray spectroscopy (WDXRF) elemental analysis. The key difference is that MWD XRF uses a doubly curved crystal X-ray optic between the X-ray source and the sample resulting in monochromatic excitation.[1][2] This additional optic creates a high-intensity X-ray beam on a small spot size without increasing the power of the X-ray source. An MWD XRF instrument is constructed from a low-power X-ray tube, a point-to-point focusing optic for excitation, a sample cell, a focusing optic that collects the fluorescence from the sample, and an X-ray detector. By using an optic between the X-ray source and the sample, a monochromatic beam free of bremsstrahlung, excites the sample, eliciting the secondary fluorescence X-rays needed for elemental analysis. By restricting the band of wavelengths used for excitation, a much higher signal to background ratio is achieved. This type of excitation allows much lower limits of detection and faster reading times.[3]
References
- ↑ Monochromatic wavelength dispersive x-ray fluorescence
- ↑ G. Havrilla, et al., "Monochromatic Wavelength Dispersive X-Ray Fluorescence for Improved Pu Assay" International Atomic Energy Agency Safeguards Symposium, November 2010 Vienna, Austria
- ↑ Z. W. Chen, et al., Journal of ASTM International September 2005 Volume 2 No. 8
Original source: https://en.wikipedia.org/wiki/Monochromatic wavelength dispersive x-ray fluorescence.
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