Non-perturbative emergence of non-Fermi liquid behaviour in d=2 quantum critical metals

Abstract

We consider the planar local patch approximation of d=2 fermions at finite density coupled to a critical boson. In the quenched or Bloch-Nordsieck approximation, where one takes the limit of fermion flavors Nf→ 0, the fermion spectral function can be determined exactly. We show that one can obtain this non-perturbative answer thanks to a specific identity of fermionic two-point functions in the planar local patch approximation. The resulting spectrum is that of a non-Fermi liquid: quasiparticles are not part of the exact fermionic excitation spectrum of the theory. Instead one finds continuous spectral weight with power law scaling excitations as in a d=1 dimensional critical state. Moreover, at low energies there are three such excitations at three different Fermi surfaces, two with a low energy Green's function G (ω-v*k)-1/2 and one with G |ω+k|-1/3.