Spin Correlations in the Geometrically Frustrated Pyrochlore Tb2Mo2O7

We report neutron scattering studies of the spin correlations of the geometrically frustrated pyrochlore Tb2Mo2O7 using single crystal samples. This material undergoes a spin-freezing transition below Tg~24 K, similar to Y2Mo2O7, and has little apparent chemical disorder. Diffuse elastic peaks are observed at low temperatures, indicating short-range ordering of the Tb moments in an arrangement where the Tb moments are slightly rotated from the preferred directions of the spin ice structure. In addition, a Q-independent signal is observed which likely originates from frozen, but completely uncorrelated, Tb moments. Inelastic measurements show the absence of sharp peaks due to crystal field excitations. These data show how the physics of the Tb sublattice responds to the glassy behavior of the Mo sublattice with the associated effects of lattice disorder.Comment: 4 pages, 4 figure

Field evolution of magnetic correlations in ϵ-Co nanoparticle assemblies

Small-angle neutron scattering measurements of Co nanoparticle assemblies reveal three characteristic length scales associated with the interparticle and intraparticle magnetic orders. The first length scale stemming from particle size and separation does not vary with applied field. In contrast, the magnetic correlation length increases from 71±9nm in zero field at 5K to greater than 1000nm in fields larger than 0.2T. The random-field length scale decreases from 37±8nm when H=0to9.1±0.3nm in H=0.2T, and the contribution of this term is less significant in large fields