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W2606540215 abstract "Iron telluride (FeTe) is known to display bicollinear magnetic order at low temperatures together with a monoclinic lattice distortion. Because the bicollinear order can involve two different wave vectors $(ensuremath{pi}/2,ensuremath{pi}/2)$ and $(ensuremath{pi}/2,ensuremath{-}ensuremath{pi}/2)$, symmetry considerations allow for the possible stabilization of a nematic state with short-range bicollinear order coupled to monoclinic lattice distortions at a ${T}_{S}$ higher than the temperature ${T}_{N}$ where long-range bicollinear order fully develops. As a concrete example, the three-orbital spin-fermion model for iron telluride is studied with an additional coupling ${stackrel{ifmmode tilde{}else ~{}fi{}}{ensuremath{lambda}}}_{12}$ between the monoclinic lattice strain and an orbital-nematic order parameter with ${B}_{2g}$ symmetry. Monte Carlo simulations show that with increasing ${stackrel{ifmmode tilde{}else ~{}fi{}}{ensuremath{lambda}}}_{12}$ the first-order transition characteristic of FeTe splits and bicollinear nematicity is stabilized in a (narrow) temperature range. In this new regime, the lattice is monoclinically distorted and short-range spin and orbital order breaks rotational invariance. A discussion of possible realizations of this exotic state is provided." @default.
W2606540215 created "2017-04-28" @default.
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W2606540215 date "2017-07-24" @default.
W2606540215 modified "2023-10-15" @default.
W2606540215 title "Possible bicollinear nematic state with monoclinic lattice distortions in iron telluride compounds" @default.
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W2606540215 doi "https://doi.org/10.1103/physrevb.96.035144" @default.
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