Korringa ratio of ferromagnetically correlated impure metals
Abstract
The Korringa ratio, K, obtained by taking an appropriate combination of the Knight shift and nuclear spin-lattice relaxation time, is calculated at finite temperature, T, in the three-dimensional electron gas model, including the electron-electron interaction, U, and non-magnetic impurity scatterings. K varies in a simple way with respect to U and T; it decreases as U is increased but increases as T is raised. However, K varies in a slightly more complicated way with respect to the impurity scatterings; as the scattering rate is increased, K increases for small U and low T, but decreases for large U or high T regime. This calls for a more careful analysis when one attempts to estimate the Stoner factor from K.
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