The effect of magnetic dipolar interactions on the interchain spin wave dispersion in CsNiF3

Abstract

Inelastic neutron scattering measurements were performed on the ferromagnetic chain system CsNiF3 in the collinear antiferromagnetic ordered state below TN = 2.67K. The measured spin wave dispersion was found to be in good agreement with linear spin wave theory including dipolar interactions. The additional dipole tensor in the Hamiltonian was essential to explain some striking phenomena in the measured spin wave spectrum: a peculiar feature of the dispersion relation is a jump at the zone center, caused by strong dipolar interactions in this system. The interchain exchange coupling constant and the planar anisotropy energy were determined within the present model to be J'/kB = -0.0247(12)K and A/kB = 3.3(1)K. This gives a ratio J/J' ≈ 500, using the previously determined intrachain coupling constant J/kB = 11.8$. The small exchange energy J' is of the same order as the dipolar energy, which implies a strong competition between the both interactions.

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