Dressing the Post-Newtonian two-body problem and Classical Effective Field Theory

TL;DR

This paper develops a classical effective field theory approach with dressed perturbation theory to efficiently compute high-order Post-Newtonian corrections in binary gravitating systems, introducing recursive equations for diagrammatic expansion.

Contribution

It introduces a novel classical dressing theory with recursive integral equations, simplifying high-order Post-Newtonian calculations in gravitational two-body problems.

Findings

Computed dressed charges up to 2PN order.

Classified irreducible diagram topologies up to 3PN.

Calculated terms beyond 2PN using dressed charges.

Abstract

We apply a dressed perturbation theory to better organize and economize the computation of high orders of the 2-body effective action of an inspiralling Post-Newtonian gravitating binary. We use the effective field theory approach with the non-relativistic field decomposition (NRG fields). For that purpose we develop quite generally the dressing theory of a non-linear classical field theory coupled to point-like sources. We introduce dressed charges and propagators, but unlike the quantum theory there are no dressed bulk vertices. The dressed quantities are found to obey recursive integral equations which succinctly encode parts of the diagrammatic expansion, and are the classical version of the Schwinger-Dyson equations. Actually, the classical equations are somewhat stronger since they involve only finitely many quantities, unlike the quantum theory. Classical diagrams are shown to factorize exactly when they contain non-linear world-line vertices, and we classify all the possible topologies of irreducible diagrams for low loop numbers. We apply the dressing program to our Post-Newtonian case of interest. The dressed charges consist of the dressed energy-momentum tensor after a non-relativistic decomposition, and we compute all dressed charges (in the harmonic gauge) appearing up to 2PN in the 2-body effective action (and more). We determine the irreducible skeleton diagrams up to 3PN and we employ the dressed charges to compute several terms beyond 2PN.