X-ray topographic methods and application to analysis of electronic materials
Abstract
Three supplementary X-ray techniques new to semiconductor applications are discussed. These are the Computer Aided Rocking Curve Analyzer, the Divergent Beam Method and a new method based on enhanced X-ray flourescence. The first method is used for quantitative mapping of an elastic or plastic strain field while the other two methods are used only to measure elastic strains. The divergent beam method is used for measuring the full strain tensor while the microfluorescence method is useful for monitoring strain uniformity. These methods are discussed in detail and examples of their application is presented. Among these are determination of the full strain ellipsoid in state-of-the-art liquid phase epitaxy deposited III-V epitaxial films; mapping of the plastic strain concentrations in tensile deformed Si; and quantitative determination of damage in V3Si due to ion implantation.
- Publication:
-
Flat-Plate Solar Array Proj. Res. Forum on the High-Speed Growth and Characterization of Crystals for Solar Cells
- Pub Date:
- April 1984
- Bibcode:
- 1984fpsa.proc..593M
- Keywords:
-
- Crystal Defects;
- Liquid Phase Epitaxy;
- Microelectronics;
- Topography;
- X Ray Fluorescence;
- X Ray Inspection;
- Characterization;
- Computers;
- Elastic Properties;
- Ion Implantation;
- Silicon;
- Strain Distribution;
- Stress Concentration;
- Thin Films;
- Electronics and Electrical Engineering