One-electron self energies and spectral functions for the t-J model in the large-N limit

Abstract

Using a recently developed perturbative approach, which considers Hubbard operators as fundamental excitations, we have performed electronic self-energy and spectral function calculations for the t-J model on the square lattice. We have found that the spectral functions along the Fermi surface are isotropic, even close to the critical doping where the d-density wave phase takes place. Fermi liquid behavior with scattering rate ω2 and a finite quasiparticle weight Z was obtained. Z decreases with decreasing doping taking low values for low doping. Results are compared with other ones, analytical and numerical like slave-boson and Lanczos diagonalization finding agreement. We discuss our results in the light of recent ARPES experiments in cuprates.

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