Gravitational waves in scalar-tensor theory to one-and-a-half post-Newtonian order
Résumé
We compute the gravitational waves generated by compact binary systems in a class of massless scalar-tensor (ST) theories to the 1.5 post-Newtonian (1.5PN) order beyond the standard quadrupole radiation in general relativity (GR). Using and adapting to ST theories the multipolar-post-Minkowskian and post-Newtonian formalisms originally defined in GR, we obtain the tail and non-linear memory terms associated with the dipole radiation in ST theory. The multipole moments and GW flux of compact binaries are derived for general orbits including the new 1.5PN contribution, and comparison is made with previous results in the literature. In the case of quasi-circular orbits, we present ready-to-use templates for the data analysis of detectors, and for the first time the scalar GW modes for comparisons with numerical relativity results.
Mots clés
Gravitational waves in GR and beyond: theory
gravitational waves / theory
modified gravity
Gauss-Bonnet-Lovelock-Horndeski-Palatini etc gravity theories
binary: compact
radiation: dipole
gravitation: scalar tensor
gravitational radiation
orbit: circle
nonlinear
multipole
general relativity
flux
relativity theory
expansion: higher-order
wave function