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Literature DB >> 11580527

Ge self-diffusion in epitaxial Si(1)-(x)Ge(x) layers.

N R Zangenberg¹, J Lundsgaard Hansen, J Fage-Pedersen, A Nylandsted Larsen.

Abstract

Diffusion coefficients and activation energies have been determined for Ge diffusion in strain-relaxed Si(1)-(x)Ge(x) with x = 0.00, 0.10, 0.20, 0.30, 0.40, and 0.50. The activation energy drops from 4.7 eV in Si and Si(0.90)Ge(0.10) to 3.2 eV at x = 0.50. This value compares with the literature value for Ge self-diffusion in Ge, suggesting Ge-like diffusion already at x approximately equal to 0.5. The effect of strain on the diffusion was also studied showing a decrease in diffusion coefficient and an increase in activation energy upon going from compressive over relaxed to tensile strain.

Entities: Chemical

Year: 2001 PMID： 11580527 DOI： 10.1103/PhysRevLett.87.125901

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

3 in total

Ge self-diffusion in epitaxial Si(1)-(x)Ge(x) layers.

1. Composition and temperature dependence of self-diffusion in Si_1-x Ge _x alloys.

2. Impact of local composition on the energetics of E-centres in Si_1-xGe_x alloys.

3. Electronegativity and doping in Si_1-xGe_x alloys.

Ge self-diffusion in epitaxial Si(1)-(x)Ge(x) layers.

1. Composition and temperature dependence of self-diffusion in Si1-x Ge x alloys.

2. Impact of local composition on the energetics of E-centres in Si1-xGex alloys.

3. Electronegativity and doping in Si1-xGex alloys.

1. Composition and temperature dependence of self-diffusion in Si_1-x Ge _x alloys.

2. Impact of local composition on the energetics of E-centres in Si_1-xGe_x alloys.

3. Electronegativity and doping in Si_1-xGe_x alloys.