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A holographic approach to point defect structure determination in inorganic crystals: Er-doped Sc2O3

A holographic approach to point defect structure determination in inorganic crystals: Er-doped Sc2O3 A holographic approach to the analysis of a Bragg scattering pattern has been described by Szoke Acta Cryst. (1993), A49, 853-866. The combination of crystallographic procedures and holographic interpretation allows reconstruction of an unknown part of the crystalline structure model-free if the other part of the structure is known. By introducing the concept of an average crystal, this approach is extended to point defect structures in inorganic crystals. In this case, the host lattice is well known while the defect structure is regarded as the unknown part. To demonstrate the feasibility of this approach, an Sc2O3 sample doped with Er at low concentration has been studied. An additional electron density has been observed, which can be interpreted as an interstitial Er position. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Acta Crystallographica Section A: Foundations of Crystallography International Union of Crystallography

A holographic approach to point defect structure determination in inorganic crystals: Er-doped Sc2O3

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A holographic approach to point defect structure determination in inorganic crystals: Er-doped Sc2O3

Anduleit, K; Materlik, G
Acta Crystallographica Section A: Foundations of Crystallography , Volume 59 (2): 138 – Feb 26, 2003

Abstract

A holographic approach to the analysis of a Bragg scattering pattern has been described by Szoke Acta Cryst. (1993), A49, 853-866. The combination of crystallographic procedures and holographic interpretation allows reconstruction of an unknown part of the crystalline structure model-free if the other part of the structure is known. By introducing the concept of an average crystal, this approach is extended to point defect structures in inorganic crystals. In this case, the host lattice is well known while the defect structure is regarded as the unknown part. To demonstrate the feasibility of this approach, an Sc2O3 sample doped with Er at low concentration has been studied. An additional electron density has been observed, which can be interpreted as an interstitial Er position.

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References (12)

Publisher
International Union of Crystallography
Copyright
Copyright (c) 2003 International Union of Crystallography
Subject
point defect structures, holography
ISSN
0108-7673
eISSN
1600-5724
DOI
10.1107/S0108767303000473
Publisher site
See Article on Publisher Site

Abstract

A holographic approach to the analysis of a Bragg scattering pattern has been described by Szoke Acta Cryst. (1993), A49, 853-866. The combination of crystallographic procedures and holographic interpretation allows reconstruction of an unknown part of the crystalline structure model-free if the other part of the structure is known. By introducing the concept of an average crystal, this approach is extended to point defect structures in inorganic crystals. In this case, the host lattice is well known while the defect structure is regarded as the unknown part. To demonstrate the feasibility of this approach, an Sc2O3 sample doped with Er at low concentration has been studied. An additional electron density has been observed, which can be interpreted as an interstitial Er position.

Journal

Acta Crystallographica Section A: Foundations of CrystallographyInternational Union of Crystallography

Published: Feb 26, 2003

Keywords: point defect structures; holography.

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