I. V. Maznichenko scite author profile

The magnetic interlayer coupling in La0.7Sr0.3MnO3/SrRuO3 superlattices was investigated. High quality superlattices with ultrathin La0.7Sr0.3MnO3 and SrRuO3 layers were fabricated by pulsed laser deposition. The superlattices grew coherently with Mn/Ru intermixing restricted to about one interfacial monolayer. Strong antiferromagnetic interlayer coupling depended delicately on magnetocrystalline anisotropy and intermixing at interfaces. Ab initio calculations elucidated that the antiferromagnetic coupling is mediated by the Mn-O-Ru bond. The theoretical calculations allowed for a quantitative correlation between the total magnetic moment of the superlattice and the degree of Mn/Ru intermixing.

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Topological Character and Magnetism of the Dirac State in Mn-DopedBi2Te3

Henk

et al. 2012

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First-principles and model calculations show that the Dirac surface state of the topological insulator Bi 2 Te 3 survives upon moderate Mn doping of the surface layers but can lose its topological character as a function of magnetization direction. The dispersion depends considerably on the direction of the Mn magnetization: for perpendicular magnetization, a gap of 16 meV opens up at the Dirac point; for in-plane magnetization, a tiny gap can be opened or closed in dependence on the magnetization azimuth. The ground state is ferromagnetic, with a critical temperature of 12 K. The results provide a path towards a magnetic control of the topological character of the Dirac surface state and its consequences to spindependent transport properties.

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Structural Secrets of Multiferroic Interfaces

et al. 2011

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We present an experimental and theoretical study of the geometric structure of ultrathin BaTiO(3) films grown on Fe(001). Surface x-ray diffraction reveals that the films are terminated by a BaO layer, while the TiO(2) layer is next to the top Fe layer. Cations in termination layers have incomplete oxygen shells inducing strong vertical relaxations. Onset of polarization is observed at a minimum thickness of two unit cells. Our findings are supported by first-principles calculations providing a quantitative insight into the multiferroic properties on the atomic scale.

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I. V. Maznichenko

Magnetic phase transition in two-phase multiferroics predicted from first principles

Spin-split electronic states in graphene: Effects due to lattice deformation, Rashba effect, and adatoms by first principles

Tailoring Magnetic Interlayer Coupling inLa0.7Sr0.3MnO3/SrRuO3Superlattices

Topological Character and Magnetism of the Dirac State in Mn-DopedBi2Te3

Structural Secrets of Multiferroic Interfaces

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