Coexistence of magnetic fluctuations and long-range orders in the one-dimensional J1-J2 zigzag chains materials BaDy2O4 and BaHo2O4

Abstract

The compounds BaDy2O4 and BaHo2O4 are part of a family of frustrated systems exhibiting interesting properties, including spin liquid-type ground states, magnetic field-induced phases, and the coexistence of short- and long-range magnetic orders, with dominant one-dimensional correlations, which can be described as Ising J1-J2 zigzag chains along the c-axis. We have investigated polycrystalline samples of BaDy2O4 and BaHo2O4 with both neutron diffraction and neutron spectroscopy, coupled to detailed crystalline electric field calculations. The latter points to site-dependent anisotropic magnetism in both materials, which is corroborated by the magnetic structures we determined. The two systems show the coexistence of two different long-range orders --- two double N\'eel orders in the ab-plane with propagation vectors k1 = (12,0,12) and k2 = (12,12,12) for BaDy2O4, and two distinct arrangements of simple N\'eel orders along the c-axis, both with the propagation vector k0 = (0,0,0) for BaHo2O4. The order for both wave vectors in BaDy2O4 occurs at TN = 0.48 K, while in BaHo2O4, the first order sets in at TN 1.3 K and the second one has a lower ordering temperature of 0.84 K. Both compounds show extensive diffuse scattering which we successfully modeled with a one-dimensional axial next-nearest neighbor Ising (ANNNI) model. In both materials, strong diffusive scattering persists to temperatures well below where the magnetic order is fully saturated. The ANNNI model fits indicate the presence of sites which do not order with moments in the ab-plane.