Temperature Dependence of the Spin-Peierls Energy Gap and Anomalous Line Shapes in CuGeO3
Abstract
Neutron scattering measurements on a large single crystal of CuGeO3 have been used to determine the temperature-dependence of the spin-Peierls energy gap. While the power law behavior of the intensity of structural superlattice peaks is well fit by I( T) ( Tc - T)2β with an exponent of β =0.33, the exponent for the temperature dependence of the energy gap is significantly smaller than expected for conventional spin-Peierls materials. Usual scaling relations relate the energy gap to the superlattice reflection intensity as ( T) Ia with a=1/3; the present results suggest an exponent of a≈ 1/6 for CuGeO3. Additional scattering cross-section is observed in constant-q and constant-E scans creating a long `tail' extending to higher energies relating to a proposed scattering continuum.
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