Brittle-to-ductile transition and strain relaxation in Si1-xGex linearly graded buffers
Abstract
The strain-relaxation mechanism of a set of Si0.6Ge0.4 linearly graded buffers (LGBs), grown following different temperature profiles, has been investigated by means of defect-etching and variable-temperature high-resolution X-ray diffraction (VT-HRXRD). Defect-etching experiments demonstrate that a sharp increase of threading dislocation density (TDD) from 3 × 105\,cm-2 to 1.2 × 106\,cm-2 takes place when the final growth temperature exceeds a critical value Tc≈ 530. VT-HRXRD measurements show that in low TDD samples extra relaxation takes place for annealing temperatures larger than Tc, thanks to the nucleation of new dislocations. These results indicate that, below Tc, strain relaxation is driven by the gliding of existing dislocations while above Tc new dislocations are nucleated, suggesting a link with our results and the brittle-to-ductile transition in Si1-xGex alloys.
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