Gravitational waveforms from the quasicircular inspiral of compact binaries in massive Brans-Dicke theory

We study the gravitational waves emitted by an inspiralling compact binary system in massive Brans-Dicke theory. We calculate explicitly and analytically the expressions for the time-domain waveforms of the four polarizations. With the stationary phase approximations, we obtain the Fourier transforms of the two tensor polarizations. We find that when the scalar field is light, the waveforms can be mapped to the parametrized post-Einsteinian (ppE) framework and we identify the ppE parameters. However, when the scalar field is heavy, the ppE framework is not applicable. We also obtain the projected constraints on the parameters of this theory by gravitational wave observations of future ground-based detectors. Finally, we apply our result to the model proposed by Damour and Esposito-Far\`{e}se, $f(R)$ gravity, and screened modified gravity.