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Wavelength Dispersive X-ray Fluorescence
Introduction
Wavelength dispersive x-ray fluorescence (WDXRF) is the old timer among commercial
x-ray spectrometers, since the method works without high-resolution solid-state
detectors. Instead, WDXRF instruments rely on diffractive optics to give
them high spectral resolution. WDX spectrometers with simple electronic
counting circuits were around well before the computer age, and are still
the workhouse and leading performer for routine XRF analysis. back
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Hardware
WDXRF can be relatively simple and inexpensive, or complex and very expensive
depending on the number of optical components. WDX instruments use a x-ray
tube source to directly excite the sample. Because the overall efficiency
of the WDXRF system is low, x-ray tubes in larger systems are normally
rated at 1-4 kilowatts. There are some specialized low power systems that
operate at 50 to 200 watts. A diffraction device, usually a crystal or
multilayer, is positioned to diffract x-rays from the sample toward the
detector. Diffracted wavelengths are those that satisfy the 2dnsin ? relationship,
where d is the atomic spacing within the crystal, n is an integer, and
theta is the angle between the sample and detector. Other wavelengths are
scattered very inefficiently. Collimators are normally used to limit the
angular spread of x-rays, to further improve the effective resolution of
the WDX system. Because the detector is not relied on for the systems resolution
it can be a proportional counter or other low-resolution counter capable
of detecting a million or more counts per second.
All the components can be fixed to form a fixed single WDX channel that is ideal for analyzing a single element. A simultaneous WDX analyzer will have a number of fixed single channels usually formed in a circle around the sample with the x-ray tube facing upward in the middle. Other WDX analyzers use a goniometer to allow the angle (?) to be changed, so that one element after another may be measured in sequence. This type of instrument is a sequential WDX analyzer. There are also combined sequential/simultaneous instruments as well. back to top
Applications
WDXRF can be used for a tremendous variety of elemental analysis applications.
It can be used to measure virtually every element form Na to Pu in the
periodic table, and some instruments can be used for quantitative or semi-quantitative
work for even lighter elements. It can measure elemental concentrations
ranging from a few ppm to nearly 100 percent. It can be used for monitoring
major components in a product or process or the addition of minor additives.
WDXRF is extremely popular in the geological field and is often used for
measuring raw minerals, and finished products composed of minerals. back
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Advantages
and Disadvantages
Se EDX vs. WDX comparison back
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