The crystal structure and magnetic properties of CuGeO3
Abstract
The crystal structure of CuGeO3, which has been reported to undergo a spin-Peierls transition at 14 K, is determined by neutron powder diffraction at 300, 20 and 4.2 K and the structure refined in the space group Pmma at all three temperatures, ie without displacement of the Cu atoms from a uniform one-dimensional chain; anisotropic broadening of (h0l) reflections, observed in all three data sets, is successfully modelled by an orthorhombic micro-strain along a and c, i.e. perpendicular to Cu–Cu chains. Below 10 K the magnetic susceptibility fits very well to the Bulaevskii model, indicating a ratio of 0.69 between the Cu–Cu exchange constants in the dimerised chain and a mean exchange constant of 88 K.