Duality between zeroes and poles in holographic systems with massless fermions and a dipole coupling

Abstract

We discuss the zeroes and poles of the determinant of the retarded Green function ( GR) at zero frequency in a holographic system of charged massless fermions interacting via a dipole coupling. For large negative values of the dipole coupling constant p, GR possesses only poles pointing to a Fermi liquid phase. We show that a duality exists relating systems of opposite p. This maps poles of GR at large negative p to zeroes of GR at large positive p, indicating that the latter corresponds to a Mott insulator phase. This duality suggests that the properties of a Mott insulator can be studied by mapping the system to a Fermi liquid. Finally, for small values of p, GR contains both poles and zeroes (pseudo-gap phase).