Zero-Field Long Range Order at T 40 mK in the Proximate Quantum Spin Ice Ce2Sn2O7 and Phase Diagram for Magnetic Fields Along [1,1,0]
Abstract
The Ce3+ pseudospin-1/2 degrees of freedom in the pyrochlore magnets Ce2X2O7, with X = Zr, Hf, or Sn, possess dipole-octupole character. The XYZ nearest-neighbor model Hamiltonians which have successfully described their properties make them attractive candidates for quantum spin ice ground states. We report new heat capacity measurements to very low temperatures on a high-quality single crystal of Ce2Sn2O7 grown by hydrothermal techniques. Our zero-field measurements uncover a clear first order transition to long-ranged order at T 0.04 K, well below the downturn in the broader Schottky-like anomaly that is a common feature in the zero-field heat capacity for cerium pyrochlores. This observation settles the debate as to whether Ce2Sn2O7 possesses a QSI ground state in zero field - it does not. However, we also find compelling evidence suggesting that spin ice physics is nearby, and remains relevant to Ce2Sn2O7. Application of a magnetic field along the [1,1,0] direction leads to an evolution of this peak to a weak anomaly at higher temperature more characteristic of a continuous, mean field transition. At higher fields along [1,1,0], the Schottky-like anomaly bifurcates similar to expectations for independent polarized α and orthogonal β chains in classical spin ice. These new experimental results demonstrate richness to the phase diagram for Ce-based pyrochlores.
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