Abstract

Nuclear hyperfine structure of the anomalous muonium center (${\mathrm{Mu}}^{\mathrm{*}}$) in GaAs has been resolved in muon-spin-rotation frequency spectra and studied in detail by level-crossing-resonance spectroscopy. A comparison of the measured hyperfine parameters with the free-atom values indicates that 38% (45%) of the spin density is on one Ga (As) on the 〈111〉 symmetry axis of ${\mathrm{Mu}}^{\mathrm{*}}$ with the ratio of p to s spin density equal to about 4 (23). These results support a recently proposed model in which ${\mathrm{Mu}}^{\mathrm{*}}$ is a neutral interstitial located close to the center of a Ga---As bond.