Magnetic devil's staircase in UAgBi2
Abstract
Materials characterized by competing interactions often exhibit a large number of nearly degenerate periodic states. Here we show that layered UAgBi2 hosts a cascade of field- and temperature-induced magnetic transitions. Based on specific heat, thermal expansion, and neutron diffraction, we construct a phase diagram that reveals at least seven nearly degenerate magnetic states in UAgBi2. The observed multi-step magnetization process can be understood by square-wave structures with distinct propagation vectors k=(0, 0, k) in the presence of strong easy-axis anisotropy that confines the moments along the c axis. Our findings are consistent with a magnetic devil's staircase described by the axial next-nearest neighbor Ising (ANNNI) model and place UAgBi2 as a rare realization of the devil's staircase in a 5f-electron system.
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