Thermal conductivity of Mg-doped CuGeO3 at very low temperatures: Heat conduction by antiferromagnetic magnons
Abstract
Thermal conductivity is measured at very low temperatures down to 0.28 K for pure and Mg-doped CuGeO3 single crystals. The doped samples carry larger amount of heat than the pure sample at the lowest temperature. This is because antiferromagnetic magnons appear in the doped samples and are responsible for the additional heat conductivity, while of the pure sample represents phonon conductivity at such low temperatures. The maximum energy of the magnon is estimated to be much lower than the spin-Peierls-gap energy. The result presents the first example that at very low temperatures probes the magnon transport in disorder-induced antiferromagnetic phase of spin-gap systems.
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