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A New Device for the Precise Measurement of X-Ray Attenuation Coefficients and Dispersion Corrections

Published online by Cambridge University Press:  06 March 2019

D. C. Creagh
D. C. Creagh*
Affiliation:
Royal Military College, Duntroon, Australia
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Extract

Results of measurements of the mass attenuation coefficients (μen/ρ) and the dispersion corrections f’ and f” have been given in two recent papers. The data cited in these papers were gained using both a conventional XRF spectrometer and a multiple reflection double crystal spectrometer based on the Bonse-Hart low angle scattering camera. Both of these techniques have deficiencies which limit their usefulness in operation. The XRF technique has been shown to become inaccurate for thick specimens. The multiple reflection spectrometer experiences alignment and stability problems, because, for each wavelength, three different axes must be adjusted. Since the angle of acceptance of the grooved multiply-reflecting elements is less than 10 seconds of arc, any misalignment of one element of the spectrometer with respect to the other causes large variations in the intensity of the beam transmitted through the spectrometer.

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Note
Information
Advances in X-Ray Analysis , Volume 21: Twenty-Sixth Annual Conference on Applications of X-ray Analysis, August 3-5, 1977 , 1977 , pp. 149 - 153
Copyright
Copyright © International Centre for Diffraction Data 1977

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References

1. Creagh, D.C., 1975, Phys. Stat. Sol(b), 72, 337.Google Scholar
2. Creagh, D.C., 1977, Phys. Stat. Sol. (a), .39, 576.Google Scholar
3. Bonse, U. and Hart, M., 1966, Z. Phys., 189, 151.Google Scholar
4. Creagh, D.C., 1976, J. Phys. E.: Scientific Instruments, 9, 80.Google Scholar
5. Bonse, U. and Hart, M., 1965, Appl. Phys. Letters, 7, 238.Google Scholar
6. Creagh, D.C., 1972, J. Phys. E.: Scientific Instruments, 5, 831.Google Scholar
7. Hubbell, J.H. and Viegele, W.J., 1976, National Bureau Standards Technical Mote 901.Google Scholar
8. Cromer, D.T. and Liberman, D., 1970, J . Chem. Phys. 53., 1891.Google Scholar