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Lorentz and orientation factors in fiber X-ray diffraction analysis

Lorentz and orientation factors in fiber X-ray diffraction analysis The application of a general formulation of the Lorentz factor for any distribution of crystallite orientations to a uniaxial fiber structure reveals that current practice, which involves the use of a standard single-crystal rotation factor, is inadequate. An analysis is presented which eliminates the need for a detailed knowledge of the distribution function and which can be applied to measured peak intensities. The resulting expressions significantly improved the agreement between sets of experimental test data. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Acta Crystallographica Section A: Crystal Physics, Diffraction, Theoretical and General Crystallography International Union of Crystallography

Lorentz and orientation factors in fiber X-ray diffraction analysis

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Lorentz and orientation factors in fiber X-ray diffraction analysis

Cella, R.J; Lee, B; Hughes, R.E
Acta Crystallographica Section A: Crystal Physics, Diffraction, Theoretical and General Crystallography , Volume 26 (1): 118 – Jan 1, 1970

Abstract

The application of a general formulation of the Lorentz factor for any distribution of crystallite orientations to a uniaxial fiber structure reveals that current practice, which involves the use of a standard single-crystal rotation factor, is inadequate. An analysis is presented which eliminates the need for a detailed knowledge of the distribution function and which can be applied to measured peak intensities. The resulting expressions significantly improved the agreement between sets of experimental test data.

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Publisher
International Union of Crystallography
Copyright
Copyright (c) 1970 International Union of Crystallography
ISSN
0567-7394
DOI
10.1107/S0567739470000165
Publisher site
See Article on Publisher Site

Abstract

The application of a general formulation of the Lorentz factor for any distribution of crystallite orientations to a uniaxial fiber structure reveals that current practice, which involves the use of a standard single-crystal rotation factor, is inadequate. An analysis is presented which eliminates the need for a detailed knowledge of the distribution function and which can be applied to measured peak intensities. The resulting expressions significantly improved the agreement between sets of experimental test data.

Journal

Acta Crystallographica Section A: Crystal Physics, Diffraction, Theoretical and General CrystallographyInternational Union of Crystallography

Published: Jan 1, 1970

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