Single-crystal growth and magnetic, magnetoelectric, and optical properties of ferroaxial-type SrMn2Ni6Te3O18

Abstract

Single crystals of SrMn2Ni6Te3O18, a member of the ferroaxial-type magnetic oxide family AB2C6Te3O18 (A = Pb, Sr; B = Mn, Cd; C = Ni, Co), have been successfully grown, and their structural, magnetic, magnetoelectric, and optical properties have been systematically studied. Imaging of the spatial distribution of electric-field-induced optical rotation reveals that the single crystals preferentially form single ferroaxial (FA) domains. Magnetization and neutron diffraction measurements show that Mn2+ and Ni2+ magnetic moments order antiferromagnetically at T N = 83 K, forming a c-axis collinear bidirector-type antiferromagnetic structure. All independent magnetoelectric tensor components allowed by the magnetic point group 6/m have been detected, and the χ33 component exhibits a pronounced temperature-dependent anomaly, including a peak and a sign reversal. Preferential formation of single FA domains and a similar χ33 anomaly are also observed in the isostructural compound PbMn2Ni6Te3O18. These findings suggest that the ferroaxial and magnetic characteristics within this structural framework are robust against Sr-Pb replacement.