Dynamic fields in the partial magnetization plateau of Ca 3 Co2 O6
Journal of Physics Condensed Matter 23:30 (2011)
Abstract:
Fluctuation dynamics in magnetization plateaus is a relatively poorly explored area in frustrated magnetism. Here we use muon spin relaxation to determine the fluctuation timescale and associated field distribution width in the partial magnetization plateau of Ca3Co2O6. The muon spin relaxation rate has a simple and characteristic field dependence which we model and, by fitting to the data at 15K, we extract a fluctuation timescale τ = 880(30)ps and a field distribution width Δ = 40.6(3)mT. Comparison with previous results on Ca3Co2O6 suggests that this fluctuation timescale can be associated with short-range, slowly fluctuating magnetic order. © 2011 IOP Publishing Ltd.Temperature dependence of the vortex remanent state in high-Tc superconductors
Physical Review B - Condensed Matter and Materials Physics 83:21 (2011)
Abstract:
Temperature and magnetic field dependence of the vortex penetration into a superconductor and the resulting trapped vortex field (the vortex remanent state) were investigated for Bi2Sr2CaCu2O 8+x (BSCCO) and YBa2Cu3O6+x (YBCO) single crystals and BSCCO thin films. The experiments revealed changes in the pinning regime (the magnitude and magnetic relaxation) of the trapped vortex field with an increasing temperature. The trapped vortex field, obtained by applying a constant magnetic field, exhibits a maximum at a certain temperature, that separates the partial vortex penetration regime at low temperatures from the complete vortex penetration state at higher temperatures. The corresponding vortex remanent states in these two regimes are characterized by two distinctly different relaxations, the logarithmic and the nonlogarithmic ones at temperatures below and above the maximum, respectively, for both BSCCO and YBCO. At temperatures close to Tc surface/geometric barrier affect the relaxation rates. © 2011 American Physical Society.Erratum: Circularly polarized x rays as a probe of noncollinear magnetic order in multiferroic TbMnO3 (Physical Review Letters (2011) 106:23 (239902))
Physical Review Letters 106:23 (2011)
Photoinduced melting of antiferromagnetic order in La(0.5)Sr(1.5)MnO4 measured using ultrafast resonant soft x-ray diffraction.
Phys Rev Lett 106:21 (2011) 217401
Abstract:
We used ultrafast resonant soft x-ray diffraction to probe the picosecond dynamics of spin and orbital order in La(0.5)Sr(1.5)MnO(4) after photoexcitation with a femtosecond pulse of 1.5 eV radiation. Complete melting of antiferromagnetic spin order is evidenced by the disappearance of a (1/4,1/4,1/2) diffraction peak. On the other hand, the (1/4,1/4,0) diffraction peak, reflecting orbital order, is only partially reduced. We interpret the results as evidence of destabilization in the short-range exchange pattern with no significant relaxation of the long-range Jahn-Teller distortions. Cluster calculations are used to analyze different possible magnetically ordered states in the long-lived metastable phase. Nonthermal coupling between light and magnetism emerges as a primary aspect of photoinduced phase transitions in manganites.Observation of orbital currents in CuO.
Science 332:6030 (2011) 696-698