Correlated Worldline theory: Structure and Consistency

Abstract

We give a formal treatment of the "Correlated Worldline" theory of quantum gravity. The generating functional is written as a product over multiple copies of the coupled matter and gravitational fields; paths for fields are correlated via gravity itself. In the limit where the gravitational coupling G → 0, conventional quantum field theory is recovered; in the classical limit → 0, General Relativity is recovered. A formal loop expansion is derived, with all terms up to one-loop order O(lP2) given explicitly, where lP is the Planck length. We then derive the form of a perturbation expansion in lP2 around a background field, with the correlation functions given explicitly up to O(lP2). Finally, we explicitly demonstrate the on-shell gauge independence of the theory, to order lP2 in gravitational coupling and to all orders in matter loops, and derive the relevant Ward identities.