Single Crystal Neutron Diffraction Study of the Magnetic Phase Diagram of the Heavy Fermion Superconductor UPd₂Al₃

Abstract

The magnetic phase diagram of the heavy fermion superconductor UPd₂Al₃ (T_N=14.3, K) has been determined in magnetic fields up to 5, Tesla by single crystal neutron diffraction experiments, which were performed at several temperatures above and below the superconducting transition at T_c=1.8, K. Observed magnetic intensities correspond to the magnetic structure with a field-independent magnetic propagation vector k=[0, , 0, , 1/2]. A magnetic field applied in the hexagonal a-b plane gives rise to domain reorientations, in addition rotates the direction of the ordered magnetic moments against a small anisotropy in the easy a-b plane, and makes the moment directions perpendicular to the field direction. This model allows a quantitative analysis of the observed field dependence of magnetic peak intensities. No superconductivity-induced changes of the antiferromagnetic order in UPd₂Al₃ are observed in our experiments. However, an anomaly detected in the temperature dependence of the zero-field sublattice magnetization for 11, K≤ T ≤ 14.3, K indicates a change in the magnetic structure of UPd₂Al₃.