Conservation Law and Trace Anomaly for the Stress Energy Tensor of a Self-Interacting Scalar Field

We consider a self-interacting, massive, real scalar field on a four-dimensional globally hyperbolic spacetime and the associated stress-energy tensor. Using techniques proper of the algebraic approach to perturbative quantum field theory, we study the associated, Wick-ordered, quantum observable. In particular we generalize a construction, first developed in the free field theory scenario by Moretti in [Mor03], aimed at exploiting the existing freedoms in the definition of the classical stress-energy tensor, in order to define a quantum counterpart which is divergence free. We prove that this procedure can be adapted also to cubic or quartic self-interactions, at least up to order $\mathcal{O}(\lambda^3)$ in perturbation theory. As in the free field scenario, the price to pay for ensuring that the quantum stress-energy tensor is divergence free is the emergence of a trace anomaly, which is here computed for a quartic self-interaction.