Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2004-01-03
Physics
Condensed Matter
Strongly Correlated Electrons
16 pages, 8 figures
Scientific paper
The renormalization group formalism was applied to calculate the spin-lattice relaxation rate of a well-defined magnetic moment in the neighborhood of a spin degenerate Anderson impurity. In the Kondo regime, the spin-lattice relaxation rate as a function of the temperature presents a peak at the Kondo temperature; for temperature much lower then the Kondo temperature, the system behaves as a heavy Fermy liquid, with an enhanced density of states, which increases with the decreasing of the Kondo temperature; the product of the temperature by the relaxation rate remains an universal function of the temperature, which is scaled by the Kondo resonance width, up to temperatures of the order of one hundred of this width; for temperatures lower then the Kondo temperature, the spin-lattice relaxation rate is proportional to the magnetic susceptibility multiplied by the temperature; the peak of spin-lattice relaxation at the Kondo temperature decreases with the increasing of the distance between the Anderson impurity and the magnetic probe.
Frota H. O.
Pinto J. W. M.
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