Radiofrequency studies of TmVO 4

Abstract

The electronic ground state of Tm ³⁺ , ³ H ₆ , is a non-Kramers doublet which, below a critical temperature T _D , is split by a cooperative Jahn-Teller distortion. Radiofrequency measurements of the susceptibility have established that ( a ) T _D = 2.156(5) K; ( b ) most of the magnetic specific heat above T _D comes from random splittings of the doublet, ascribed to local strains; (c) the critical field B _c needed to counteract the distortion below T _D follows very closely the molecular field theory for spin ½. Measurements of the ⁵¹ V n.m.r. spectrum above T _D give values for the internal field at both V and Tm sites; interactions between Tm ions are predominantly dipolar. Below T _D , both the ⁵¹ V spectrum and the enhanced ¹⁶⁹ Tm spectrum show anisotropy in the (001) plane, whose principal axes, [110] and [110], confirm that these are the principal axes of the Jahn-Teller distortion. The temperature at which the enhanced ¹⁶⁹ Tm nuclear moments should enter an ordered phase is estimated as 0.2-0.3mK.