Frustration of square cupola in Sr(TiO)Cu4(PO4)4

Abstract

The structural and magnetic properties of the square-cupola antiferromagnet Sr(TiO)Cu4(PO4)4 are investigated via x-ray diffraction, magnetization, heat capacity, and 31P nuclear magnetic resonance experiments on polycrystalline samples, as well as density-functional band-structure calculations. The temperature-dependent unit cell volume could be described well using the Debye approximation with the Debye temperature of θ D 550~K. Magnetic response reveals a pronounced two-dimensionality with a magnetic long-range-order below T N 6.2~K. High-field magnetization exhibits a kink at 1/3 of the saturation magnetization. Asymmetric 31P NMR spectra clearly suggest strong in-plane anisotropy in the magnetic susceptibility, as anticipated from the crystal structure. From the 31P NMR shift vs bulk susceptibility plot, the isotropic and axial parts of the hyperfine coupling between 31P nuclei and the Cu2+ spins are calculated to be A hf iso 6539 and A hf ax 952~Oe/μ B, respectively. The low-temperature and low-field 31P NMR spectra indicate a commensurate antiferromagnetic ordering. Frustrated nature of the compound is inferred from the temperature-dependent 31P NMR spin-lattice relaxation rate and confirmed by our microscopic analysis that reveals strong frustration of the square cupola by next-nearest-neighbor exchange couplings.