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The order of the post-Newtonian expansion needed to extract in a reliable and accurate manner the fully general relativistic gravitational wave signal from inspiraling compact binaries is explored. A class of approximate wave forms, called P-approximants, is constructed based on the following two inputs: (a) the introduction of two new energy-type and flux-type functions e (v) and f (v), respectively, (b) the systematic use of the Pad\'e approximation for constructing successive approximants of e (v) and f (v). The new P-approximants are not only more effectual (larger overlaps) and more faithful (smaller biases) than the standard Taylor approximants, but also converge faster and monotonically. The presently available (v/c) ^5-accurate post-Newtonian results can be used to construct P-approximate wave forms that provide overlaps with the exact wave form larger than 96. 5%, implying that more than 90% of potential events can be detected with the aid of P-approximants as opposed to a mere 10--15 % that would be detectable using standard post-Newtonian approximants.
Damour et al. (Thu,) studied this question.
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