Effect of Dispersion and Geometric Intensity Factors on X-Ray Back-Reflection Line Profiles
- 1 May 1956
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 27 (5), 485-488
- https://doi.org/10.1063/1.1722408
Abstract
At high diffraction angles the rapid variation of dispersion causes the center of gravity of the observed diffraction-line distribution of intensity versus 2τ to be displaced away from the Bragg angle τm corresponding to the mean value ρ̄λ̄ of the convolution of the distribution of lengths ρ of reciprocal-lattice vectors hkl with the distribution of x-ray wavelengths λ. The displacement has been calculated for the case of measurements both on individual Kα components and on unresolved Kα doublets. In a probable example of the latter case, with CuKα radiation, the displacement at 2τ=160° corresponds to a relative error in spacing measurement of 1 part in 104 and increases rapidly with increasing 2τ. The simple procedure is recommended of replotting the observed intensities against a scale of sine τ. The mean of the replotted distribution corresponds very closely to τm.Keywords
This publication has 5 references indexed in Scilit:
- Method of Correction for the α1 α2 Doublet in the X-Ray Diffraction LinesReview of Scientific Instruments, 1955
- Effect of vertical divergence on the displacement and breadth of X-ray powder diffraction linesBritish Journal of Applied Physics, 1952
- Geiger-Counter X-Ray Spectrometer - Influence of Size and Absorption Coefficient of Specimen on Position and Shape of Powder Diffraction MaximaJournal of Scientific Instruments, 1950
- Reply to the Resolution of X-ray Doublet Diffraction Lines into 1 2ComponentsJournal of Scientific Instruments, 1948
- A Correction for the 1 2Doublet in the Measurement of Widths of X-ray Diffraction LinesJournal of Scientific Instruments, 1948