Substitution effects on spin fluctuations in the spin-Peierls compound CuGeO3
Abstract
Using Raman scattering we studied the effect of substitutions on 1D spin fluctuations in CuGeO3 observed as a spinon continuum in frustration induced exchange scattering. For temperatures below the spin-Peierls transition (TSP=14K) the intensity of this continuum at 120-500 cm-1 is exponentially suppressed and transferred into a 3D two-magnon density of states. Besides a spin-Peierls gap-induced mode at 30 cm-1 and additional modes at 105 and 370 cm-1 are observed. Substitution of Zn on the Cu-site and Si on the Ge-site of CuGeO3 quenches easily the spin-Peierls state. Consequently a suppression of the spin-Peierls gap observable below TSP=14K as well as a change of the temperature dependence of the spinon continuum are observed. These effects are discussed in the context of a dimensional crossover of this compound below TSP and strong spin-lattice interaction.
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