Accomplishment of the Analysis of an Edge Dislocation for a Simple Cubic Lattice

Gallina, V.; Galotto, C. P.; Omini, M.

doi:10.1002/pssb.2220100222

Cited by 9 publications

(1 citation statement)

References 9 publications

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“…The difference between the relaxed and the elastic positions of the atoms was found to be rather small, even in the core. Gallina and Omini (1964) and Gallina et al (1965 a, b) considered the dislocation as a perturbation in the phonon field of a perfect crystal. Linear elastic interaction between atoms was assumed, as in the study of lattice vibrations, so that this is again a modification of the discrete elastic model.…”

Section: Atomic Modelsmentioning

confidence: 99%

Dislocations and stacking faults

1970

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Contents1. Geometrical properties of dislocations 7. W. Christian and V. Vz'tek atomistic or core properties of dislocations, and the dynamics of moving dislocations. General methods for finding the elastic field of an arbitrary dislocation loop are outlined, and the results of some recent calculations using anisotropic elasticity are summarized. These include the prediction, partially confirmed by experiment, that dislocations in certain ranges of orientation may have negative line tension. T h e current importance of atomistic calculations of core structure and related problems is emphasized, and the methods available for these calculations are discussed.More detailed descriptions of dislocation and stacking fault configurations are given for some of the common crystal structures, and recent work on complex defects resulting from vacancy aggregation in close-packed structures is included. The experimental and theoretical evidence for the recent conclusion that screw dislocations in body-centred cubic metals have an asymmetric core is also reviewed.'I'he rather controversial theory of thermally activated dislocation motion is described in a separate section, and examples are given of the application of this theory to various models of the obstacles encountered by moving dislocations. The final section is concerned with the theory of dislocations in grain boundaries and interphase boundaries, and includes the concept of the surface dislocation tensor.

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Section: Atomic Modelsmentioning

confidence: 99%

Dislocations and stacking faults

1970

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The electron states associated with the core region of the 60° dislocation in silicon

Alstrup

Marklund

1977

Physica Status Solidi (b)

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A geometrical arrangement of silicon atoms corresponding to a cylinder of infinite length with a 60' dislocation core along the axis is constructed using linear elasticity theory. The one-electron energy bands of this cylinder are studied using extended Huckel theory with parameters optimized to give best fit to the absolute bulk energy bands of finite silicon crystals. Electron states localized at the atoms in the dislocation core have a profound dangling bond character and form a band in the bandgap with a width of about 0.7 eV.Eine geometrische Anordnung von Siliziumatomen entsprechend einem Zylinder unendlicher Lange mit einem 60"-Versetzungskern entlang der Achse wird mit linearer Elastizitiitstheorie konstruiert. Die Einelektronen-Energiebiinder dieses Zylindem werden unter Verwendung einer erweiterten Hackel-Theorie mit optimalenParametern untersucht, um eine optimale Anpassung an die absoluten Energiebiinder endlicher Siliziumkristalle zu erhalten. Elektronische Zustiinde, die im Versetzungskern lokalisiert sind, haben den ausgepriigten Charekter hlngender Bindungen und bilden ein Band in der Bandliicke mit einer Breite von etwa 0,7 eV.

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A note on the quantum mechanical treatment of lattice distortion around a dislocation

Vítek

1966

Czech J Phys

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Accomplishment of the Analysis of an Edge Dislocation for a Simple Cubic Lattice

Cited by 9 publications

References 9 publications

Dislocations and stacking faults

Dislocations and stacking faults

The electron states associated with the core region of the 60° dislocation in silicon

A note on the quantum mechanical treatment of lattice distortion around a dislocation

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