Spin-lattice-coupled helical magnetic order in breathing pyrochlore magnets, CuAlCr4S8 and CuGaCr4S8
Abstract
We report low-temperature powder X-ray and neutron diffraction studies on breathing pyrochlore magnets CuMCr4S8 (M = Al, Ga), which undergo a magnetic transition at T N ≈ 21 and 31 K for M = Al and Ga, respectively. X-ray diffraction reveals that the magnetic transition accompanies a structural transition from cubic F 43m to polar orthorhombic Imm2 symmetry for both the compounds, with larger distortion observed for M = Ga at low temperatures. Neutron diffraction reveals incommensurate magnetic modulation Q = (q IC, 0.5, 0) in the orthorhombic setting, where q IC ≈ 0.39 and 0.31 for M = Al and Ga, respectively. Our magnetic-structure analysis suggests cycloid-type magnetic order but not proper-screw type for both the compounds. We find strong correlation between the local spin configuration and Cr-Cr bond lengths, indicating that the spin-lattice coupling as well as the magnetic frustration play an important role in determining the ground state. CuMCr4S8 potentially offers a platform to explore magnetoelectric effects arising from the helimagnet driven electric polarity.
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