Abstract
The depolarization rate for spin polarized μ+ particles implanted into high purity polycrystalline nickel and iron samples were studied as a function of temperature in zero external field. In nickel a rapid decrease of the depolarization rate above 300 K was found. Assuming an Arrhenius behaviour, an activation energy of Ea=173 meV was determined. In iron it was not possible to fit the data with a simple Arrhenius law. At least two different slopes can be observed in an Arrhenius plot with Ea=(124±35) meV and Ea=(19±2) meV, respectively.
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M. L. G. Foy, N. Heimann, W. J. Kossler and C. E. Stronach, Phys. Rev. Lett. 30 (1973) 1064
B. D. Patterson, K. M. Crowe, F. N. Gygax, R. F. Johnson, A. M. Portis and J. H. Brewer, Phys. Lett. A46 (1974) 453
I. I. Gurevich, A. N. Klimov, V. N. Maiorov, E. A. Meleshko, B. A. Nikol'skii, V. S. Roganov, V. I. Selianov, V. A. Suetin, JETP. Lett. 18 (1973) 332
H. Graf, W. Kündig, B. D. Patterson, W. Reichart, P. Roggwiller, M. Camani, F. N. Gygax, W. Rüegg, A. Schenk and H. Schilling Helv. Phys. Acta 49 (1976) 730
N. Nishida, R. S. Hayano, K. Nagammie, T. Yamazaki, J. H. Brewer, D. M. Garner, D. G. Fleming, T. Takeuchi and Y. Ishikawa, Solid State Comm. 22 (1977) 235
A. Abragam, Principles of Nuclear Magnetism, Oxford (1961)
O. Echt, H. Graf, E. Holzschuh, E. Recknagel, Th. Wichert, Application of μSR to Radiation Damage in Metals, contribution to this conference.
J. Völkl and G. Alefeld, in Diffusion in Solids, ed. by A. Nowick and J. Burbon (Academic Press, New York, 1975).
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Graf, H., Holzschuh, E., Recknagel, E. et al. Diffusion of positive mouns in nickel and iron. Hyperfine Interact 6, 245–249 (1979). https://doi.org/10.1007/BF01028801
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DOI: https://doi.org/10.1007/BF01028801