Bound States in Lee's Complex Ghost Model

Abstract

Quantum field theories (QFTs) including fourth derivative terms such as the Lee-Wick finite QED and quadratic gravity have a better ultra-violet behavior compared to standard theories with second derivative ones, but the existence of ghost with negative norm endangers unitarity. Such a ghost in general acquires a pair of complex conjugate masses from radiative corrections whose features are concisely described by the so-called Lee model. Working with the canonical operator formalism of QFTs, we investigate the issue of bound states in the Lee model. We find that the bound states can be created from ghosts as in path integral approach although there is a nontrivial complex delta function, which is a complex generalization of the well-known Dirac delta function. Finally, the problem of amelioration of the unitarity in quadratic gravity is briefly discussed.