Magnetism and the phase diagram of MnSb2O6

Abstract

Static and dynamic magnetic properties of P\=31m-phase MnSb2O6 have been studied by means of muon spin relaxation (μSR), high-frequency electron spin resonance (HF-ESR), specific heat, and magnetisation studies in magnetic fields up to 25\,T. The data imply onset of long-range antiferromagnetic order at TN =~8~K and a spin-flop-like transition at BSF≈ 0.7 - 1~T. Below TN, muon asymmetry exhibits well-defined oscillations indicating a narrow distribution of the local fields. A competing antiferromagnetic phase appearing below T2 =~5.3~K is evidenced by a step in the magnetisation and a slight kink of the relaxation rate. Above TN , both μSR and HF-ESR data suggest short-range spin order. HF-ESR data show that local magnetic fields persist up to at least 12· T N≈ 100\,K. Analysis of the antiferromagnetic resonance modes and the thermodynamic spin-flop field suggest zero-field splitting of ≈ 18\,GHz which implies small but finite magnetic anisotropy.