Author
Listed:
- Z. H. Hu
(University of Warwick)
- P. A. Thomas
(University of Warwick)
- A. Snigirev
(ESRF)
- I. Snigireva
(ESRF)
- A Souvorov
(ESRF)
- P. G. R. Smith
(Optoelectronics Research Centre, University of Southampton)
- G. W. Ross
(Optoelectronics Research Centre, University of Southampton)
- S. Teat
(Daresbury Laboratory)
Abstract
A varying refractive index across a wavefront leads to a change in the direction of propagation of the wave1,2. This provides the basis for phase-contrast imaging of transparent or weakly absorbing materials with highly coherent X-ray beams3,4. Lattice distortions can also change the direction of propagation of a wave field diffracted from a crystal. Here we report the use of this principle to effect phase-contrast imaging of the domain structure of a ferroelectric material, lithium niobate. A periodically domain-inverted structure for quasi-phase-matching of second-harmonic generation is created in this material, in which the direction of spontaneous polarization is sequentially inverted. Because of complex interactions during domain-inversion processing, this is accompanied by lattice distortions across the domain walls. These distortions split the diffracted wavefront of a beam of coherent X-rays from an advanced synchrotron source, giving rise to a pattern of interference that reflects the underlying pattern of lattice distortions. These results show that this phase-contrast imaging technique with sub-micrometre spatial resolution permits the non-destructive, highly sensitive phase-mapping of various structural defects and distortions introduced into materials during processing.
Suggested Citation
Z. H. Hu & P. A. Thomas & A. Snigirev & I. Snigireva & A Souvorov & P. G. R. Smith & G. W. Ross & S. Teat, 1998.
"Phase-mapping of periodically domain-inverted LiNbO3 with coherent X-rays,"
Nature, Nature, vol. 392(6677), pages 690-693, April.
Handle:
RePEc:nat:nature:v:392:y:1998:i:6677:d:10.1038_33637
DOI: 10.1038/33637
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