470 research outputs found

    First-principles theory of magnetically induced ferroelectricity in TbMnO3

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    We study the polarization induced via spin-orbit interaction by a magnetic cycloidal order in orthorhombic TbMnO3 using first-principle methods. The case of magnetic spiral lying in the b-c plane is analyzed, in which the pure electronic contribution to the polarization is shown to be small. We focus our attention on the lattice-mediated contribution, and study it's dependence on the Coulomb interaction parameter U in the LDA+U method and on the wave-vector of the spin spiral. The role of the spin-orbit interaction on different sites is also analyzed.Comment: 4 pages, 2 figures, submitted to EPJ B (MEIPIC6 proceedings

    Weyl semimetals from noncentrosymmetric topological insulators

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    We study the problem of phase transitions from 3D topological to normal insulators without inversion symmetry. In contrast with the conclusions of some previous work, we show that a Weyl semimetal always exists as an intermediate phase regardless of any constriant from lattice symmetries, although the interval of the critical region is sensitive to the choice of path in the parameter space and can be very narrow. We demonstrate this behavior by carrying out first-principles calculations on the noncentrosymmetric topological insulators LaBiTe3_3 and LuBiTe3_3 and the trivial insulator BiTeI. We find that a robust Weyl-semimetal phase exists in the solid solutions LaBi1βˆ’x_{1-x}Sbx_xTe3_3 and LuBi1βˆ’x_{1-x}Sbx_xTe3_3 for xβ€‰β£β‰ˆβ€‰β£38.5βˆ’41.9x\!\approx\!38.5-41.9\% and xβ€‰β£β‰ˆβ€‰β£40.5βˆ’45.1x\!\approx\!40.5-45.1\% respectively. A low-energy effective model is also constructed to describe the critical behavior in these two materials. In BiTeI, a Weyl semimetal also appears with applied pressure, but only within a very small pressure range, which may explain why it has not been experimentally observed.Comment: 10 pages, 11 figure
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