# The (11-22) and (-12-16) twinning modes modelled by obliquity correction   of a (58deg, a+2b) prototype stretch twin

**Authors:** Cyril Cayron

arXiv: 1706.08338 · 2018-07-17

## TL;DR

This paper models the {11-22} and {11-26} twinning modes through obliquity correction of a prototype stretch twin, offering a new interpretation that differs from classical double-twin mechanisms.

## Contribution

It introduces a one-step mechanism based on obliquity correction of a prototype twin to explain specific twinning modes, contrasting with previous double-twin interpretations.

## Key findings

- The twinning modes can be derived from a single prototype twin via obliquity correction.
- The model aligns with classical twinning theory and the Westlake-Rosenbaum model.
- It provides a unified explanation for {11-22} and {11-26} twinning modes.

## Abstract

The {11-22} and {11-26} twinning modes were recently put in evidence by Ostapovets et al. (Phil. Mag, 2017)and interpreted as {101-2}-{101-2} double-twins formed by a simultaneous action of two twinning shears. We propose another interpretation in which the twinning modes result from a one-step mechanism based on the same (58deg, a+2b) prototype stretch twin. . The two twins differ from the prototype twin by their obliquity correction. The results are compared with the classical theory of twinning and with Westlake-Rosenbaum model of {11-22} twinning. An unconventional twinning mode recently discovered in a magnesium single crystal based on the same prototype twin will be the subject of a separate publication.

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Source: https://tomesphere.com/paper/1706.08338