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Literature DB >> 25167283

Extended point defects in crystalline materials: Ge and Si.

N E B Cowern¹, S Simdyankin¹, C Ahn¹, N S Bennett¹, J P Goss¹, J-M Hartmann², A Pakfar³, S Hamm⁴, J Valentin⁵, E Napolitani⁶, D De Salvador⁶, E Bruno⁷, S Mirabella⁷.

Abstract

B diffusion measurements are used to probe the basic nature of self-interstitial point defects in Ge. We find two distinct self-interstitial forms--a simple one with low entropy and a complex one with entropy ∼30 k at the migration saddle point. The latter dominates diffusion at high temperature. We propose that its structure is similar to that of an amorphous pocket--we name it a morph. Computational modeling suggests that morphs exist in both self-interstitial and vacancylike forms, and are crucial for diffusion and defect dynamics in Ge, Si, and probably many other crystalline solids.

Entities: Chemical

Year: 2013 PMID： 25167283 DOI： 10.1103/PhysRevLett.110.155501

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

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Cited

5 in total

Extended point defects in crystalline materials: Ge and Si.

1. Thermodynamic Formation Properties of Point Defects in Germanium Crystal.

2. Laser Level Scheme of Self-Interstitials in Epitaxial Ge Dots Encapsulated in Si.

3. Subsurface diffusion in crystals and effect of surface permeability on the atomic step motion.

4. Free Energy Surfaces and Barriers for Vacancy Diffusion on Al(100), Al(110), Al(111) Reconstructed Surfaces.

5. A Theoretical Simulation of the Radiation Responses of Si, Ge, and Si/Ge Superlattice to Low-Energy Irradiation.