Spin degrees of freedom and flattening of the spectra of single-particle excitations in strongly correlated Fermi systems

Abstract

The impact of long-range spin-spin correlations on the structure of a flat portion in single-particle spectra (p), which emerges beyond the point, where the Landau state loses its stability, is studied. We supplement the well-known Nozieres model of a Fermi system with limited scalar long-range forces by a similar long-range spin-dependent term and calculate the spectra versus its strength g. It is found that Nozieres results hold as long as g>0. However, with g changing its sign, the spontaneous magnetization is shown to arise at any nonzero g. The increase of the strength |g| is demonstrated to result in shrinkage of the domain in momentum space, occupied by the flat portion of (p), and, eventually, in its vanishing.

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