Muon spin spectroscopy in multiferroic (Cu,Zn)3Mo2O9

Abstract

We present the muon spin relaxation/rotation spectra in the multiferroic compound (Cu,Zn)3Mo2O9. The parent material Cu3Mo2O9 has a multiferroic phase below T N = 8.0 K, where the canted antiferromagnetism and the ferroelectricity coexist. The asymmetry time spectra taken at RIKEN-RAL pulsed muon facility show a drastic change at T N. At low temperatures the weakly beating oscillation caused by the static internal magnetic fields in the antiferromagnetic phase was observed in Cu3Mo2O9 and the lightly (0.5\%) Zn-doped sample. From the fitting of the oscillating term, we obtain the order parameter in these samples: ferromagnetic moment in two sublattices of antiferromagnet. In the heavily (5.0\%) Zn-doped sample, the muon-spin oscillation is rapidly damped. The frequency-domain spectrum of this sample suggests a formation of magnetic superstructure.