Y. Zhang, S. G. Wu, W. Zhao
We compute the gravitational radiation of the supermassive binary black hole OJ287. By fitting the data of its recent seven outbursts, we obtain the orbital motion up to 3.5PN (Post-Newtonian) order, the energy and angular momentum fluxes and the waveform up to the 2PN. It is found that the 1PN term of the energy flux, has an opposite sign to the Newtonian flux, and the 2PN term has an opposite sign to the 1PN one. The same pattern is also found for the angular momentum fluxes. The total flux is reduced by 30.8% on average from the Newtonian flux for OJ287, resulting in a smaller orbital decay rate than that of 2.5PN calculation. Consisting with this, it is checked that, in the sequence of non-dissipative PN forces, each term of $i^{th}$ order (dissipative or non-dissipative) has a sign opposite to the $(i-1)^{th}$ order. The origin of this characteristic is traced to the appearance of the non-diagonal metric component $g_{0i}$ in PN approximation. This feature will have profound impact on estimation of gravitational waves from binary systems.
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http://arxiv.org/abs/1305.1122
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