Abstract
Initial data for evolving black-hole binaries can be constructed via many techniques, and can represent a wide range of physical scenarios. However, because of the way that different schemes parametrize the physical aspects of a configuration, it is not always clear what a given set of initial data actually represents. This is especially important for quasiequilibrium data constructed using the conformal thin-sandwich approach. Most initial-data studies have focused on identifying data sets that represent binaries in quasicircular orbits. In this paper, we consider initial-data sets representing equal-mass black-hole binaries in eccentric orbits. We will show that effective-potential techniques can be used to calibrate initial data for black-hole binaries in eccentric orbits. We will also examine several different approaches, including post-Newtonian diagnostics, for measuring the eccentricity of an orbit. Finally, we propose the use of the “Komar-mass difference” as a useful, invariant means of parametrizing the eccentricity of relativistic orbits.
4 More- Received 28 June 2007
DOI:https://doi.org/10.1103/PhysRevD.77.044011
©2008 American Physical Society