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Merger of Massive Black Holes using N-Body Simulations with Post-Newtonian Corrections

arXiv:0811.3501 · doi:10.1088/1742-6596/154/1/012049

Abstract

We present preliminary results from self-consistent, high resolution direct {\it N}-body simulations of massive black hole binaries in mergers of galactic nuclei. The dynamics of the black hole binary includes the full Post-Newtonian corrections (up to 2.5PN) to its equations of motion. We show that massive black holes starting at separations of 100 pc can evolve down to gravitational-wave-induced coalescence in less than a Hubble time. The binaries, in our models, often form with very high eccentricity and, as a result, reach separations of 50 Schwarzschild radius with eccentricities which are clearly distinct from zero -- even though gravitational wave emission damps the eccentricity during the inspiral. These deviations from exact circular orbits, at such small separations, may have important consequences for LISA data analysis.

8 pages, 6 figures, proceedings to the 7th LISA Symposium, Barcelona, 16-20 June 2008. Submitted to Journal of Physics: Conference Series