Spatially-resolved investigations of domain switching in the ferroelectric relaxor SBN by photorefractive self-focusing

M. Wesner; L. Wischmeier; E. Krätzig; A. Rosenfeldt; M. Flörsheimer; D. Kip

doi:10.1364/PEMD.2003.22

Photorefractive Effects, Materials, and Devices
OSA Trends in Optics and Photonics (Optica Publishing Group, 2003),
paper 22
•https://doi.org/10.1364/PEMD.2003.22

Spatially-resolved investigations of domain switching in the ferroelectric relaxor SBN by photorefractive self-focusing

M. Wesner, L. Wischmeier, E. Krätzig, A. Rosenfeldt, M. Flörsheimer, and D. Kip

Photorefractive Effects, Materials, and Devices 2003

La Colle sur Loup France
ISBN: 1-55752-755-5

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Material Characterization: Inorganic (MCI)

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M. Wesner, L. Wischmeier, E. Krätzig, A. Rosenfeldt, M. Flörsheimer, and D. Kip, "Spatially-resolved investigations of domain switching in the ferroelectric relaxor SBN by photorefractive self-focusing," in Photorefractive Effects, Materials, and Devices, P. Delaye, C. Denz, L. Mager, and G. Montemezzani, eds., Vol. 87 of OSA Trends in Optics and Photonics (Optica Publishing Group, 2003), paper 22.

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Abstract

We carry out spatially-resolved investigations of the domain-switching behavior of strontium-barium niobate (SBN) crystals. Photorefractive self-focusing is suggested as a powerful method to check the polarization state of a crystal in a spatially resolved way. In addition, frequency-doubling micrographs of the 180° domain walls in SBN are shown with a lateral resolution up to 250 nm. It is demonstrated that after usual poling procedures part of the crystal may still remain unpoled. Generally, there exists a considerable spatial inhomogeneity in the amount of the switchable polarization, which usually decreases from the positive towards the negative poling electrode.

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