Anomalous magnetic ground state behaviour of the mixed B-site pyrochlore Dy₂ScNbO₇

The spin ice state, which is of great interest due to observed residual pauling entropy, has been observed in rare-earth pyrochlores such as Dy₂Ti₂O₇, and Dy₂Sn₂O₇. In an effort to explore the robustness of the spin ice state in dysprosium based pyrochlores, a new species Dy₂ScNbO₇ has been synthesized and single crystals have successfully been grown. Early physical characterization has shown unique behaviour arising from the disordered b-site, with faster spin dynamics and an anomalous low ordering temperature. In an effort to further explore the unique behaviour of Dy₂ScNbO_7, heat capacity measurements have been performed with an applied magnetic field along the [111] kagomé ice plane and the [110] direction of the cubic unit cell. The phase diagrams constructed from these measurements and other recent physical characterization results show an unexpected divergence from spin ice behaviour, which is the focus of this presentation.