Importance of In-Plane Anisotropy in the Quasi Two-Dimensional Antiferromagnet BaNi2V2O8
Abstract
The phase diagram of the quasi two-dimensional antiferromagnet BaNi2V2O8 is studied by specific heat, thermal expansion, magnetostriction, and magnetization for magnetic fields applied perpendicular to c. At μ0H*1.5 T, a crossover to a high-field state, where TN(H) increases linearly, arises from a competition of intrinsic and field-induced in-plane anisotropies. The pressure dependences of TN and H* are interpreted using the picture of a pressure-induced in-plane anisotropy. Even at zero field and ambient pressure, in-plane anisotropy cannot be neglected, which implies deviations from pure Berezinskii-Kosterlitz-Thouless behavior.
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