Observation of orbital currents in CuO.
Science 332:6030 (2011) 696-698
Abstract:
Orbital currents are proposed to be the order parameter of the pseudo-gap phase of cuprate high-temperature superconductors. We used resonant x-ray diffraction to observe orbital currents in a copper-oxygen plaquette, the basic building block of cuprate superconductors. The confirmation of the existence of orbital currents is an important step toward the understanding of the cuprates as well as materials lacking inversion symmetry, such as magnetically induced multiferroics. Although observed in the antiferromagnetic state of cupric oxide, we show that orbital currents can occur even in the absence of long-range magnetic moment ordering.Strain coupling mechanisms and elastic relaxation associated with spin state transitions in LaCoO₃.
J Phys Condens Matter 23:14 (2011) 145401
Abstract:
Advantage is taken of the wealth of experimental data relating to the evolution with temperature of spin states of Co(3+) in LaCoO₃ in order to undertake a detailed investigation of the mechanisms by which changes in electronic structure can influence strain, and elastic and anelastic relaxations in perovskites. The macroscopic strain accompanying changes in the spin state in LaCoO₃ is predominantly a volume strain arising simply from the change in effective ionic radius of the Co(3+) ions. This acts to renormalize the octahedral tilting transition temperature in a manner that is easily understood in terms of coupling between the tilt and spin order parameters. Results from resonant ultrasound spectroscopy at high frequencies (0.1-1.5 MHz) reveal stiffening of the shear modulus which scales qualitatively with a spin order parameter defined in terms of changing Co-O bond lengths. From this finding, in combination with results from dynamic mechanical analysis at low frequencies (0.1-50 Hz) and data from the literature, four distinctive anelastic relaxation mechanisms are identified. The relaxation times of these are displayed on an anelasticity map and are tentatively related to spin-spin relaxation, spin-lattice relaxation, migration of twin walls and migration of magnetic polarons. The effective activation energy for the freezing of twin wall motion below ~590 K at low frequencies was found to be 182 ± 21 kJ mol(-1) (1.9 ± 0.2 eV) which is attributed to pinning by pairs of oxygen vacancies, though the local mechanisms appear to have a spread of relaxation times. It seems inevitable that twin walls due to octahedral tilting must have quite different characteristics from the matrix in terms of local spin configurations of Co(3+). A hysteresis in the elastic properties at high temperatures further emphasizes the importance of oxygen content in controlling the properties of LaCoO₃.Effect of non-stoichiometry oxygen content on the magnetization of La 1.5 Sr 0.5 NiO 4+δ
Journal of Superconductivity and Novel Magnetism 24:3 (2011) 1149-1152
Abstract:
We report on magnetization measurements of La 1.5Sr 0.5NiO 4+δ for δ=0.01 and δ=-0.01. Zero field-cooled and field-cooled bulk magnetization measurements were performed parallel to the Ni-O planes of single crystals, and on a polycrystalline δ=0.01 sample. Striking differences in the magnetization curves are observed between the two doping levels that are identifiable in polycrystalline δ=0.01. The bulk magnetization differences indicate a crossover in the magnetic properties of La 2-x Sr x NiO 4+δ at half doping level, which can be used as a simple non-destructive way to determine whether La 1.5Sr 0.5NiO 4+δ is under or over half doping. © 2010 Springer Science+Business Media, LLC.Low-energy quasi-one-dimensional spin dynamics in charge-ordered La 2-x Srx NiO4
Physical Review B - Condensed Matter and Materials Physics 83:9 (2011)
Abstract:
The low-energy spin excitations of La2-xSrxNiO 4, x=0.275 and 1/3, have been investigated by unpolarized- and polarized-inelastic neutron scattering from single crystals. A pattern of magnetic diffuse scattering is observed in both compositions and is consistent with quasi-one-dimensional AFM spin correlations along the charge stripes. Analysis of the energy line shape for x=1/3 indicates that the diffuse scattering is inelastic with a characteristic energy of 1.40±0.07 meV. There is no discernible difference between the diffuse scattering from x=0.275 and x=1/3, suggesting that it is an intrinsic property of the charge stripes. © 2011 American Physical Society.Floating-zone growth of Na0.8-y Ay CoO2 (A=Ca, Sr) single crystals
Journal of Crystal Growth 318:1 (2011) 924-926