Atomistic study of anomalous self-diffusion in bcc titanium

W. Petry; T. Flottmann; A. Heiming; J. Trampenau; M. Alba; G. Vogl

doi:10.1103/PhysRevLett.61.722

Atomistic study of anomalous self-diffusion in bcc titanium

W. Petry, T. Flottmann, A. Heiming, J. Trampenau, M. Alba, G. Vogl

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Abstract

In an investigation of self-diffusion in bcc Ti single crystals by means of both quasielastic and inelastic neutron scattering, the elementary diffusion jump has been determined directly, and the lattice vibrations which trigger the jump have been elucidated. The elementary jump for self-diffusion is a simple [111] jump into a nearest-neighbor vacancy. The reason for the anomalously fast self-diffusion is a fluctuation of -phase type which facilitates jumps into neighboring vacancies.

Original language	English
Pages (from-to)	722-725
Number of pages	4
Journal	Physical Review Letters
Volume	61
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevLett.61.722
State	Published - 1988
Externally published	Yes

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10.1103/PhysRevLett.61.722

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AU - Flottmann, T.

AU - Heiming, A.

AU - Trampenau, J.

AU - Alba, M.

AU - Vogl, G.

PY - 1988

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AB - In an investigation of self-diffusion in bcc Ti single crystals by means of both quasielastic and inelastic neutron scattering, the elementary diffusion jump has been determined directly, and the lattice vibrations which trigger the jump have been elucidated. The elementary jump for self-diffusion is a simple [111] jump into a nearest-neighbor vacancy. The reason for the anomalously fast self-diffusion is a fluctuation of -phase type which facilitates jumps into neighboring vacancies.

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Atomistic study of anomalous self-diffusion in bcc titanium

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