Publication Date:
2000-04-01
Description:
Variations in lattice plane spacing and lattice plane orientation,i.e.Δd/dand Δα, reflect variations in lattice distortion in a single crystal. Double-crystal X-ray topography (DCT) using synchrotron radiation can be used to measure Δd/dand Δα of a silicon single crystal. However, both Δd/dand Δα measured using DCT are always overlapped by extrinsic components, showing particular long-range variations. The extrinsic components should be eliminated from the measured Δd/dand Δα for quantitative characterization of silicon single crystals. A sample-rotation and area-detector-traverse (RT) method, applicable to X-ray optics for DCT, has been newly developed. The extrinsic components are eliminated by modification of the intensity distribution on the X-ray topographs using the RT method. From theoretical considerations, it is confirmed that the extrinsic components are mainly due to the (+,−) non-parallel setting between the monochromator and the collimator, and a minute bend in the sample due to its physical restraint.
Print ISSN:
0021-8898
Electronic ISSN:
1600-5767
Topics:
Geosciences
,
Physics
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