Novel Easy-Axis Switching through Metamagnetism in CeSb2

Abstract

A novel magnetic field-induced switching of the magnetization easy axis has been discovered in the layered compound CeSb2, which crystallizes in an orthorhombic structure with nearly identical lattice constants along the a- and b-axes, giving it a tetragonal-like appearance. When a magnetic field is applied along an orthorhombic in-plane axis at 4.2 K, magnetization increases abruptly around 34 T, followed by a hysteresis loop upon decreasing the field. Subsequent measurements reveal a significantly enhanced magnetization, indicative of a switch of the magnetization easy axis. Conversely, the other orthorhombic in-plane axis becomes the magnetization hard axis. Surprisingly, the easy axis is switchable by changing the field direction to the other orthorhombic in-plane axis. Moreover, this memory effect is stable up to room temperature. Polarized light microscope images have visually revealed domain formation of the as-cast samples and domain rearrangement by magnetic fields. This intriguing axis-conversion phenomenon is a novel magnetic shape memory effect for heat cycles up to room temperature. It is attributed to the specific in-plane Ce-pantograph networks in CeSb2.

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