12,540 research outputs found
Ferromagnetism in two band metals: Combined effect of Coulomb correlation, hybridization and band widths
We study the possibility of ferromagnetism in metals. The metal is described
by two hybridized bands one of which includes Hubbard correlation whereas the
other is uncorrelated. We parametrize the ratio of the band widths and their
centers as well. The original Hamiltonian is transformed in an effective and
simpler one. Only one site retains the full correlation (U) while in the others
acts as an internal field, the self-energy, in the framework of an alloy
analogy approximation. This field, in turn, is self-consistently determined by
imposing the translational invariance of the problem. For several total
electronic occupation numbers (n_{total}) we compare the spin dependent free
energies with the corresponding paramagnetic ones. We present several results
pointing out the mechanism by which the self-consistency introduces a sort of
constraints, for given values of band width and band shift .Comment: 6 pages, 7 figure
Unification of SU(2)xU(1) Using a Generalized Covariant Derivative and U(3)
A generalization of the Yang-Mills covariant derivative, that uses both
vector and scalar fields and transforms as a 4-vector contracted with Dirac
matrices, is used to simplify and unify the Glashow-Weinberg-Salam model. Since
SU(3) assigns the wrong hypercharge to the Higgs boson, it is necessary to use
a special representation of U(3) to obtain all the correct quantum numbers. A
surplus gauge scalar boson emerges in the process, but it uncouples from all
other particles.Comment: 12 pages, no figures. To be published in Int. J. Mod. Phys.
Effect of hybridization on the magnetic properties of correlated two-band metals
The magnetic properties of transition-like metals are discussed within the
single site approximation, which is a picture to take into account electron
correlations. The metal is described by two hybridized bands one of which
includes Coulomb correlation. The presented results indicate that
ferromagnetism arises for adequate values of hybridization (V), correlation (U)
and occupation number(). Some similarities with Dynamical
Mean-Field Theory (DMFT) are indicated.Comment: 3 pages, 3 figures, presented at the 53rd MMM08 conference in Austin,
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