Competition between hidden order and antiferromagnetism in URu2Si2 under uniaxial stress studied by neutron scattering
Abstract
We have performed elastic neutron scattering experiments under uniaxial stress sigma applied along the tetragonal [100], [110] and [001] directions for the heavy electron compound URu2Si2. We found that antiferromagnetic (AF) order with large moment is developed with sigma along the [100] and [110] directions. If the order is assumed to be homogeneous, the staggered ordered moment muo continuously increases from 0.02 muB (sigma=0) to 0.22 muB (0.25 GPa). The rate of increase partial muo/partial sigma is ~ 1.0 muB/GPa, which is four times larger than that for the hydrostatic pressure (partial muo/partial P sim 0.25 muB/GPa). Above 0.25 GPa, muo shows a tendency to saturate, similar to the hydrostatic pressure behavior. For sigma||[001], muo shows only a slight increase to 0.028 muB (sigma = 0.46 GPa) with a rate of ~ 0.02 muB/GPa, indicating that the development of the AF state highly depends on the direction of sigma. We have also found a clear hysteresis loop in the isothermal muo(sigma) curve obtained for sigma||[110] under the zero-stress-cooled condition at 1.4 K. This strongly suggests that the sigma-induced AF phase is metastable, and separated from the "hidden order" phase by a first-order phase transition. We discuss these experimental results on the basis of crystalline strain effects and elastic energy calculations, and show that the c/a ratio plays a key role in the competition between these two phases.
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