English

Finding high-order analytic post-Newtonian parameters from a high-precision numerical self-force calculation

General Relativity and Quantum Cosmology 2014-03-26 v2

Abstract

We present a novel analytic extraction of high-order post-Newtonian (pN) parameters that govern quasi-circular binary systems. Coefficients in the pN expansion of the energy of a binary system can be found from corresponding coefficients in an extreme-mass-ratio inspiral (EMRI) computation of the change ΔU\Delta U in the redshift factor of a circular orbit at fixed angular velocity. Remarkably, by computing this essentially gauge-invariant quantity to accuracy greater than one part in 1022510^{225}, and by assuming that a subset of pN coefficients are rational numbers or products of π\pi and a rational, we obtain the exact analytic coefficients. We find the previously unexpected result that the post-Newtonian expansion of ΔU\Delta U (and of the change ΔΩ\Delta\Omega in the angular velocity at fixed redshift factor) have conservative terms at half-integral pN order beginning with a 5.5 pN term. This implies the existence of a corresponding 5.5 pN term in the expansion of the energy of a binary system. Coefficients in the pN series that do not belong to the subset just described are obtained to accuracy better than 1 part in 1026523n10^{265-23n} at nnth pN order. We work in a radiation gauge, finding the radiative part of the metric perturbation from the gauge-invariant Weyl scalar ψ0\psi_0 via a Hertz potential. We use mode-sum renormalization, and find high-order renormalization coefficients by matching a series in L=+1/2L=\ell+1/2 to the large-LL behavior of the expression for ΔU\Delta U. The non-radiative parts of the perturbed metric associated with changes in mass and angular momentum are calculated in the Schwarzschild gauge.

Keywords

Cite

@article{arxiv.1312.1952,
  title  = {Finding high-order analytic post-Newtonian parameters from a high-precision numerical self-force calculation},
  author = {Abhay G Shah and John L Friedman and Bernard F Whiting},
  journal= {arXiv preprint arXiv:1312.1952},
  year   = {2014}
}
R2 v1 2026-06-22T02:22:34.152Z