Non-Fermi Liquid in a Truncated Two-Dimensional Fermi Surface
Abstract
Using perturbation theory and the field theoretical renormalization group approach we consider a two-dimensional anisotropic truncated Fermi Surface((FS) ) with both flat and curved sectors which approximately simulates the ``cold'' and ``hot'' spots in the cuprate superconductors. We calculate the one-particle two-loop irreducible functions (Γ(2)) and (Γ(4)) as well as the spin, the charge and pairing response functions up to one-loop order. We find non-trivial infrared stable fixed points and we show that there are important effects produced by the mixing of the existing scattering channels in higher order of perturbation theory. Our results indicate that the ``cold `` spots are turned into a non-Fermi liquid with divergents (∂ Σ0/∂ p0) and (∂ Σ0/∂ p), a vanishing (Z) and either a finite or zero ``Fermi velocity'' at (FS) when the effects produced by the flat portions are taken into account.
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