Continuum in the Spin-Excitation Spectrum of a Haldane Chain Observed by Neutron Scattering in CsNiCl3

The spin-excitation continuum, expected to dominate the low-energy fluctuation spectrum in the Haldane spin chain around the Brillouin zone center, q = 0, is directly observed by inelastic magnetic neutron scattering in the S = 1 quasi-1D antiferromagnet CsNiCl₃. We find that the single mode approximation fails, and that a finite energy width appears in the dynamic correlation function S(q,ω) for q<~0.5π. The width increases with decreasing q, while S(q,ω) acquires an asymmetric shape qualitatively similar to that predicted for the two-magnon continuum in the nonlinear σ-model.