The temperature dependence of the quadrupole coupling constants of111CdIn,111CdSn, and120SbSn was measured by means of the perturbed angular correlation (distribution) technique. The results are discussed within a generalized model for the electric field gradient in nontransition metals.
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W. Witthuhn and W. Engel, Electric Quadrupole Interaction in Noncubic Metals, in Topics in Current Physics Vol. 31, Hyperfine Interactions of Radioactive Nuclei, Ed. J. Christiansen, Springer Verlag, Berlin, Heidelberg 1983
R. Seeböck, Diplomarbeit, Erlangen 1978
R. Reichle, Diplomarbeit, Erlangen 1982
R.R. Hewitt and T.T. Taylor, Phys. Rev. 125(1962)524
W. Engel, W. Klinger and W. Witthuhn, Hyperfine Interactions 9(1981)247
P.H. Dederichs, K. Schroeder and R. Zeller, Point Defects in Metals II, Springer Tracts in Modern Physics, Vol. 87, Springer Verlag, Berlin-Heidelberg-New York 1980
G.S. Collins and N. Benczer-Koller, Phys. Rev. B17(1978)2085
W. Semmler, P. Raghavan, M. Semba and R.S. Raghavan, Z. Phys. B45(1981)29
This work was supported by the Bundesministerium für Forschung und Technologie.
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Engel, W., Föttinger, H., Reichle, R. et al. Influence of impurity atoms on the temperature dependence of the electric field gradient in nontransition metals. Hyperfine Interact 15, 249–252 (1983). https://doi.org/10.1007/BF02159749
- Thin Film
- Generalize Model
- Field Gradient
- Impurity Atom
- Electric Field Gradient