Add to ORKGIn this paper, we describe the use of electron back scatter diffraction (EBSD) to study strain variations in crystalline samples at the nanoscale. The analysis relies on cross correlation measurements of small shifts in the EBSD pattern measured at many points dispersed across the pattern. The method allows the full strain tensor, and lattice rotations to be obtained at a sensitivity of ∼10 -4. The method is applied to study variations of strains and rotations near the surface of 200 nm thick epitaxial layers of Si 0.85Ge 0.15 grown on a Si substrate patterned with rectangular and square mesa. Linescans across rectangular mesas show that strain relaxation and accompanyi...
Electron back scatter diffraction (EBSD) has made an impressive impact on the characterization of ma...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...
A method is presented for the determination of elastic strains from electron back scatter diffractio...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly ...
In this paper, we demonstrate that the shift between similar features in two electron backscatter di...
In this paper, we demonstrate that the shift between similar features in two electron backscatter di...
Cross-correlation based analysis methods have been developed for electron back scatter diffraction (...
The deformation around a 500-nm deep Berkovich indent in a large grained Fe sample has been studied ...
Cross-correlation based analysis methods have been developed for electron back scatter diffraction (...
In this paper we explore methods of measuring elastic strain variations in the presence of larger la...
Electron backscatter diffraction (EBSD) is a widely available and relatively easy-to-use scanning-el...
Two approaches to the measurement of elastic strains from electron channelling patterns (ECPs) and e...
Electron back scatter diffraction (EBSD) has made an impressive impact on the characterization of ma...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...
A method is presented for the determination of elastic strains from electron back scatter diffractio...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly...
The angular resolution of electron backscatter diffraction (EBSD) measurements can be significantly ...
In this paper, we demonstrate that the shift between similar features in two electron backscatter di...
In this paper, we demonstrate that the shift between similar features in two electron backscatter di...
Cross-correlation based analysis methods have been developed for electron back scatter diffraction (...
The deformation around a 500-nm deep Berkovich indent in a large grained Fe sample has been studied ...
Cross-correlation based analysis methods have been developed for electron back scatter diffraction (...
In this paper we explore methods of measuring elastic strain variations in the presence of larger la...
Electron backscatter diffraction (EBSD) is a widely available and relatively easy-to-use scanning-el...
Two approaches to the measurement of elastic strains from electron channelling patterns (ECPs) and e...
Electron back scatter diffraction (EBSD) has made an impressive impact on the characterization of ma...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...
We report on the development of a nanometer scale strain mapping technique by means of scanning nano...