1. Evolution of phosphorus-vacancy clusters in epitaxial germanium.
- Author
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Vohra, Anurag, Khanam, Afrina, Slotte, Jonatan, Makkonen, Ilja, Pourtois, Geoffrey, Loo, Roger, and Vandervorst, Wilfried
- Subjects
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SEMICONDUCTORS , *GERMANIUM , *PHOSPHORUS , *EPITAXY , *POSITRON annihilation , *DENSITY functional theory - Abstract
The E centers (dopant-vacancy pairs) play a significant role in dopant deactivation in semiconductors. In order to gain insight into dopant-defect interactions during epitaxial growth of in situ phosphorus doped Ge, positron annihilation spectroscopy, which is sensitive to open-volume defects, was performed on Ge layers grown by chemical vapor deposition with different concentrations of phosphorus (∼ 1 × 10 18 – 1 × 10 20 cm − 3 ). Experimental results supported by first-principles calculations based on the two component density-functional theory gave evidence for the existence of mono-vacancies decorated by several phosphorus atoms as the dominant defect type in the epitaxial Ge. The concentration of vacancies increases with the amount of P-doping. The number of P atoms around the vacancy also increases, depending on the P concentration. The evolution of P n –V clusters in Ge contributes significantly to the dopant deactivation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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