Abstract
An anomalous muonium state similar to that in silicon has been found in germanium. This state can be described an anisotropic hyperfine interaction with the parameters $\frac{{A}_{\ensuremath{\perp}}}{h}=130.7\ifmmode\pm\else\textpm\fi{}1$ MHz and $\frac{{A}_{\ensuremath{\parallel}}}{h}=26.8\ifmmode\pm\else\textpm\fi{}1$ MHz. In contrast to Si this anomalous muonium state in Ge was not observed at low external fields. In addition, a detailed investigation of normal muonium in Ge was carried out. For undoped Ge the hyperfine constant is found to be temperature independent in the range between 6 and 81 K with an average value of $\frac{A(\mathrm{Ge})}{h}=2361\ifmmode\pm\else\textpm\fi{}3$ MHz or $\frac{A(\mathrm{Ge})}{A(\mathrm{vac})}=0.5290\ifmmode\pm\else\textpm\fi{}0.0007$. The present value is considerably lower than that published by Gurevich et al. The relaxation rate of normal muonium in the Ge sample investigated increases sharply above about 50 K with an activation energy of 14 meV. A correlation with the thermal activation of impurity charge carriers is suggested.
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