Abstract
Muon spin rotation results for antiferromagnetic oxides with the corundum structure are discussed. An attempt to determine the muon stop sites and their chemical environment in these oxides is presented. In addition to the magnetic dipole contribution, a covalent contribution to the effective magnetic field at the muon site is considered. An interpretation of the muon hyperfine interactions in these oxides in terms of muon bond formation, analogous to the hydrogen-oxygen bonding, is given.
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