P. B. Hirsch scite author profile

The three scanning electron microscope diffraction based techniques of electron channelling patterns (ECPs), electron channelling contrast imaging (ECCI), and electron back scatter diffraction (EBSD) are reviewed.The dynamical diffraction theory is used to describe the physics of electron channelling, and hence the contrast observed in ECPs (and EBSD) and ECCI images of dislocations. Models for calculating channelling contrast are described and their limitations discussed. The practicalities of the experimental methods, including detector-specimen configurations, spatial resolution and sensitivities are given. Examples are given of the use of ECCI for imaging and characterising lattice defects, both individually and in groups, in semiconductor heterostructures and fatigued metals. Applications of the EBSD technique to orientation determination, phase identification and strain measurement are given and compared with use of ECPs.. It is concluded that these techniques make the SEM a powerful instrument for characterising the local crystallography of bulk materials at the mesoscopic scale.

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The estimation of dislocation densities in metals from X-ray data

Gay¹,

Hirsch²,

1953

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The dislocation distribution, flow stress, and stored energy in cold-worked polycrystalline silver

Bailey¹,

Hirsch²

1960

Philosophical Magazine

943

166

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LXVIII. Direct observations of the arrangement and motion of dislocations in aluminium

Hirsch

Horne

Whelan

1956

Philosophical Magazine

432

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A new theory of the anomalous yield stress in l12 alloys

Hirsch

1992

TPHA

167

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P. B. Hirsch

Electron diffraction based techniques in scanning electron microscopy of bulk materials

The estimation of dislocation densities in metals from X-ray data

The dislocation distribution, flow stress, and stored energy in cold-worked polycrystalline silver

LXVIII. Direct observations of the arrangement and motion of dislocations in aluminium

A new theory of the anomalous yield stress in l12 alloys

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