Truncation of a 2-dimensional Fermi surface due to quasiparticle gap formation at the saddle points
Abstract
We study a two-dimensional Fermi liquid with a Fermi surface containing the saddle points (π,0) and (0,π). Including Cooper and Peierls channel contributions leads to a one-loop renormalization group flow to strong coupling for short range repulsive interactions. In a certain parameter range the characteristics of the fixed point, opening of a spin and charge gap and dominant pairing correlations are similar to those of a 2-leg ladder at half-filling. An increase of the electron density we argue leads to a truncation of the Fermi surface with only 4 disconnected arcs remaining.
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