Coherent X-ray diffraction investigation of twinned microcrystals

Coherent X‐ray diffraction has been used to study pseudo‐merohedrally twinned manganite microcrystals. The analyzed compositions were Pr5/8Ca3/8MnO3 and La0.275Pr0.35Ca3/8MnO3. The prepared loose powder was thermally attached to glass (and quartz) capillary walls by gentle heating to ensure position...

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Bibliographic Details
Published in:Journal of synchrotron radiation 2010-11, Vol.17 (6), p.751-760
Main Authors: Aranda, Miguel A. G., Berenguer, Felisa, Bean, Richard J., Shi, Xiaowen, Xiong, Gang, Collins, Stephen P., Nave, Colin, Robinson, Ian K.
Format: Article
Language:English
Subjects:
Coherence
coherent diffraction
CXDI
Diffraction
Glass
Heating
Manganites
Microcrystals
perovskites
pseudo-merohedral twinning
Walls
X-rays
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Summary:Coherent X‐ray diffraction has been used to study pseudo‐merohedrally twinned manganite microcrystals. The analyzed compositions were Pr5/8Ca3/8MnO3 and La0.275Pr0.35Ca3/8MnO3. The prepared loose powder was thermally attached to glass (and quartz) capillary walls by gentle heating to ensure positional stability during data collection. Many diffraction data sets were recorded and some of them were split as expected from the main observed twin law: 180° rotation around [101]. The peak splitting was measured with very high precision owing to the high‐resolution nature of the diffraction data, with a resolution (Δd/d) better than 2.0 × 10−4. Furthermore, when these microcrystals are illuminated coherently, the different crystallographic phases of the structure factors induce interference in the form of a speckle pattern. The three‐dimensional speckled Bragg peak intensity distribution has been measured providing information about the twin domains within the microcrystals. Research is ongoing to invert the measured patterns. Successful phase retrieval will allow mapping out the twin domains and twin boundaries which play a key role in the physical properties.
ISSN:1600-5775
0909-0495
1600-5775
DOI:10.1107/S0909049510039774