Unusual magneto-elastic forces stabilize the insulating ferromagnetic state of manganites: the La(0.8)Ca(0.2)$MnO(3) case
Abstract
The ferromagnetic and insulating state observed in La1-xCaxMnO3, 0.125<x<0.2, is characterized by structural and magnetic anomalies below TC, similar to those observed in the xSr≈1/8. A neutron scattering study of the superlattice Q0= (0,0,1+/4)cub peak, and of the magnetic excitations are reported in the xCa=0.2 sample. The occurrence of this superstructure is associated with the observation of a gap in the spin dynamics, at a q0 wave-vector ( q0= Q0-τ) with the same modulus | q0| in all directions, which divides the dispersion into two regimes. For | q|<| q0| the dispersion is splitted into two or three curves. For | q|>| q0|, magnetic excitations lock on acoustic and optic phonon energies, revealing a new kind of magneto-vibrational coupling. We suggest an analysis in terms of two distinct magnetic couplings, associated with two ferromagnetic media involved into a collective state.
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