Interdiffusion in a symmetrically strained Ge/Si superlattice

S. J. Chang; K. L. Wang; R. C. Bowman; P. M. Adams

doi:10.1063/1.100731

Interdiffusion in a symmetrically strained Ge/Si superlattice

S. J. Chang, K. L. Wang, R. C. Bowman, P. M. Adams

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Abstract

The x-ray diffraction technique is used to measure the interdiffusion coefficients of a symmetrically strained Ge/Si superlattice consisting of alternating Ge and Si layers grown on a Ge_0.4Si_0.6 buffer layer. The buffer layer was 200 nm thick and was grown on a Si (100) substrate in order to symmetrize the strain, and thus maintain pseudomorphic growth of the superlattice. After the sample was annealed at different temperatures with various times, the interdiffusion coefficient D_λ was determined by monitoring the intensity decay of the low-angle x-ray diffraction peak resulting from the superlattice structure. The activation energy is calculated to be 3.1±0.2 eV in the annealing temperature range of 640-780°C.

Original language	English
Pages (from-to)	1253-1255
Number of pages	3
Journal	Applied Physics Letters
Volume	54
Issue number	13
DOIs	https://doi.org/10.1063/1.100731
Publication status	Published - 1989

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.100731

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title = "Interdiffusion in a symmetrically strained Ge/Si superlattice",

abstract = "The x-ray diffraction technique is used to measure the interdiffusion coefficients of a symmetrically strained Ge/Si superlattice consisting of alternating Ge and Si layers grown on a Ge0.4Si0.6 buffer layer. The buffer layer was 200 nm thick and was grown on a Si (100) substrate in order to symmetrize the strain, and thus maintain pseudomorphic growth of the superlattice. After the sample was annealed at different temperatures with various times, the interdiffusion coefficient Dλ was determined by monitoring the intensity decay of the low-angle x-ray diffraction peak resulting from the superlattice structure. The activation energy is calculated to be 3.1±0.2 eV in the annealing temperature range of 640-780°C.",

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T1 - Interdiffusion in a symmetrically strained Ge/Si superlattice

AU - Chang, S. J.

AU - Wang, K. L.

AU - Bowman, R. C.

AU - Adams, P. M.

PY - 1989

Y1 - 1989

N2 - The x-ray diffraction technique is used to measure the interdiffusion coefficients of a symmetrically strained Ge/Si superlattice consisting of alternating Ge and Si layers grown on a Ge0.4Si0.6 buffer layer. The buffer layer was 200 nm thick and was grown on a Si (100) substrate in order to symmetrize the strain, and thus maintain pseudomorphic growth of the superlattice. After the sample was annealed at different temperatures with various times, the interdiffusion coefficient Dλ was determined by monitoring the intensity decay of the low-angle x-ray diffraction peak resulting from the superlattice structure. The activation energy is calculated to be 3.1±0.2 eV in the annealing temperature range of 640-780°C.

AB - The x-ray diffraction technique is used to measure the interdiffusion coefficients of a symmetrically strained Ge/Si superlattice consisting of alternating Ge and Si layers grown on a Ge0.4Si0.6 buffer layer. The buffer layer was 200 nm thick and was grown on a Si (100) substrate in order to symmetrize the strain, and thus maintain pseudomorphic growth of the superlattice. After the sample was annealed at different temperatures with various times, the interdiffusion coefficient Dλ was determined by monitoring the intensity decay of the low-angle x-ray diffraction peak resulting from the superlattice structure. The activation energy is calculated to be 3.1±0.2 eV in the annealing temperature range of 640-780°C.

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Interdiffusion in a symmetrically strained Ge/Si superlattice

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