Absence of long range order in the frustrated magnet SrDy2O4 due to trapped defects from a dimensionality crossover

Abstract

Magnetic frustration and low dimensionality can prevent long range magnetic order and lead to exotic correlated ground states. SrDy2O4 consists of magnetic Dy3+ ions forming magnetically frustrated zig-zag chains along the c-axis and shows no long range order to temperatures as low as T=60 mK. We carried out neutron scattering and AC magnetic susceptibility measurements using powder and single crystals of SrDy2O4. Diffuse neutron scattering indicates strong one-dimensional (1D) magnetic correlations along the chain direction that can be qualitatively accounted for by the axial next-nearest neighbour Ising (ANNNI) model with nearest-neighbor and next-nearest-neighbor exchange J1=0.3 meV and J2=0.2 meV, respectively. Three-dimensional (3D) correlations become important below T*≈0.7 K. At T=60 mK, the short range correlations are characterized by a putative propagation vector k1/2=(0,12,12). We argue that the absence of long range order arises from the presence of slowly decaying 1D domain walls that are trapped due to 3D correlations. This stabilizes a low-temperature phase without long range magnetic order, but with well-ordered chain segments separated by slowly-moving domain walls.