Structural and compositional inhomogeneities in Bismuth-Substituted rare earth iron garnet epitaxial films

Structural and compositional inhomogeneities in Bismuth-Substituted rare earth iron garnet epitaxial films

•Inhomogeneities in Bi-doped rare earth Fe-garnet epitaxial films are demonstrated.•Spatial compositional variation observed by X-ray fluorescence measurements.•Variation in lattice parameters is resolved by high resolution XRD. Structural and compositional inhomogeneities in the free-standing epita...

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Bibliographic Details
Published in:Materials letters Vol. 207; pp. 25 - 28
Main Authors: Qadri, Syed B., Sanghera, Sean, Shinn, Mannix, Wu, Dong Ho, Bussman, Konrad, Amarasinghe, Priyanthi
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-11-2017
Elsevier BV
Subjects:
Bismuth
Compositional inhomogeneity
Diffraction
Epitaxy
Fluorescence
Garnet
High resolution
Inhomogeneity
Iron
Lattice parameters
Magnetic properties
Magneto-optics
Magneto-optics properties
Materials science
Physical properties
Rare earth elements
Studies
X-ray diffraction
XRD
Magneto-optics properties
Garnet
Compositional inhomogeneity
XRD
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Summary:•Inhomogeneities in Bi-doped rare earth Fe-garnet epitaxial films are demonstrated.•Spatial compositional variation observed by X-ray fluorescence measurements.•Variation in lattice parameters is resolved by high resolution XRD. Structural and compositional inhomogeneities in the free-standing epitaxial films of rare earth iron garnet films are characterized using high-resolution X-ray diffraction and energy dispersive X-ray fluorescence. These analyses show a variation in the lattice parameters as well as in chemical compositions, displaying inconsistency from the top and the bottom of the film, suggesting an inhomogeneous distribution of rare earth content. With these variations, intricate changes often occur in the magneto-optics properties. While with conventional X-ray diffraction techniques, the films appeared to be free of gross defects, our high-resolution rocking curves reveal variations in defect density and multiple lattice parameters. These results suggest that epitaxial films presumed to be homogeneous based on conventional X-ray diffractometry, may not be so. Therefore, films found to exhibit exotic physical properties should be carefully examined for the presence of structural and compositional anomalies to optimize the magneto-optic response. If such defects are present, the experimental results may be compromised due to sample imperfections, rather than intrinsic phenomena.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2017.07.003