A double-spiral spin ordering in the helimagnet YBaCuFeO5
Abstract
Materials with a spiral spin ordering always show a rich phase diagram and can be a playground for studying the exotic physical properties associated with spiral magnetism. Using neutron elastic and resonant x-ray scattering on a high-quality single crystal YBaCuFeO5, we demonstrate YBaCuFeO5 to be a helimagnet consisting of a double-spiral spin ordering. YBaCuFeO5 undergoes a commensurate to incommensurate magnetic phase transition at TN2 175 K, and the incommensurate phase consists of two spin-ordered components. Both components have different periodicities but with the same propagating direction along the c-axis below TN2. Using resonant x-ray scattering at the Fe and Cu K-edges, we further demonstrate that both spiral spin orderings result from the Fe3+ and Cu2+, respectively, forming a double-spiral spin ordering structure. This can be understood to be caused by the coupling between both sublattices of Fe3+ and Cu2+ with the atomic lattice.
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