Diffusion processes in solid Li-Mg and Li-Ag alloys and the spin-lattice relaxation of ⁸Li

verfasst von: A. Korblein, P. Heitjans, H.-J. Stockmann, F. Fujara, H. Ackermann, W. Buttler, K. Dorr, H. Grupp
Abstract: The spin-lattice relaxation (SLR) of polarised radioactive ⁸Li nuclei in solid Li-based alloys containing 2-11 at.% Mg and 1.6-10 at.% Ag was measured via their asymmetric beta -decay radiation. For temperatures T<200K SLR is due to conduction electrons only, and the Korringa relation is found to hold in the concentration range covered. For T=200-450K, SLR is additionally influenced by atomic diffusion. The diffusional contribution consists of a dipolar part as in pure Li and a quadrupolar part induced by the solute ions. The analysis is based on the concept of two-exponential SLR for spin I=2. In Li-Mg the self-diffusion of Li and the diffusion of the solute ions are found to be slowed down on alloying. The ratio of the jump rates of Li and Mg appears to be determined simply by their atomic masses. In the case of the dilute alloy Li-1.6 at.% Ag, which is amenable to theoretical diffusion models, comparison with tracer results favours an interstitial-vacancy pair mechanism. In the framework of this model Ag is found to diffuse faster than Li.
Externe Organisation(en): Philipps-Universität Marburg
Typ: Artikel
Journal: Journal of Physics F: Metal Physics
Band: 15
Seiten: 561-577
Anzahl der Seiten: 17
ISSN: 0305-4608
Publikationsdatum: 1985
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Allgemeiner Maschinenbau, Physik und Astronomie (sonstige), Metalle und Legierungen
Elektronische Version(en): https://doi.org/10.1088/0305-4608/15/3/011 (Zugang: Unbekannt)

BibTeX

@article{222429c62f994ff4b8c2c0612a13520d,
title = "Diffusion processes in solid Li-Mg and Li-Ag alloys and the spin-lattice relaxation of 8Li",
abstract = "The spin-lattice relaxation (SLR) of polarised radioactive 8Li nuclei in solid Li-based alloys containing 2-11 at.% Mg and 1.6-10 at.% Ag was measured via their asymmetric beta -decay radiation. For temperatures T<200K SLR is due to conduction electrons only, and the Korringa relation is found to hold in the concentration range covered. For T=200-450K, SLR is additionally influenced by atomic diffusion. The diffusional contribution consists of a dipolar part as in pure Li and a quadrupolar part induced by the solute ions. The analysis is based on the concept of two-exponential SLR for spin I=2. In Li-Mg the self-diffusion of Li and the diffusion of the solute ions are found to be slowed down on alloying. The ratio of the jump rates of Li and Mg appears to be determined simply by their atomic masses. In the case of the dilute alloy Li-1.6 at.% Ag, which is amenable to theoretical diffusion models, comparison with tracer results favours an interstitial-vacancy pair mechanism. In the framework of this model Ag is found to diffuse faster than Li.",
author = "A. Korblein and P. Heitjans and H.-J. Stockmann and F. Fujara and H. Ackermann and W. Buttler and K. Dorr and H. Grupp",
year = "1985",
doi = "10.1088/0305-4608/15/3/011",
language = "English",
volume = "15",
pages = "561--577",
journal = "Journal of Physics F: Metal Physics",
issn = "0305-4608",
publisher = "Institute of Physics and the Physical Society",
number = "3",
}

Diffusion processes in solid Li-Mg and Li-Ag alloys and the spin-lattice relaxation of 8Li

Diffusion processes in solid Li-Mg and Li-Ag alloys and the spin-lattice relaxation of ⁸Li