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A Critical Analysis of the Mean-Field Approximation for the Calculation
of the Magnetic Moment in the Friedel-Anderson Impurity Model
release_5tkpju5izvf2looarnfk3jipme
by
Gerd Bergmann
Released
as a article
.
2005
Abstract
It is shown that the calculation of the magnetic moment of a Friedel-Anderson
impurity in mean-field theory is unreliable. A class of approximate solutions,
which contains the mean-field solution as an element, is expressed in rotated
Hilbert space and optimized. The optimal state has considerably lower energy
than the mean field solution and requires almost twice the Coulomb exchange U
to become magnetic. Since most moment calculations of magnetic impurities, for
example the spin-density-functional theory, use the mean-field approximation
the resulting magnetic moments have to be critically reexamened.(After
publication the reference can be found at "http://physics.usc.edu/~bergmann/")
PACS: 75.20.Hr
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