Spin Dynamics of the Magnetoresistive Pyrochlore Tl2Mn2O7

Abstract

Neutron scattering has been used to study the magnetic order and spin dynamics of the colossal magnetoresistive pyrochlore Tl2Mn2O7. On cooling from the paramagnetic state, magnetic correlations develop and appear to diverge at TC (123 K). In the ferromagnetic phase well defined spin waves are observed, with a gapless ( <0.04 meV) dispersion relation E=Dq2 as expected for an ideal isotropic ferromagnet. As T approaches TC from low T, the spin waves renormalize, but no significant central diffusive component to the fluctuation spectrum is observed in stark contrast to the La1-x(Ca,Ba,Sr)xMnO3 system. These results argue strongly that the mechanism responsible for the magnetoresistive effect has a different origin in these two classes of materials.

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