Gravitational Waves from Mergin Compact Binaries: How Accurately Can One Extract the Binary's Parameters from the Inspiral Waveform?

Abstract

The most promising source of gravitational waves for the planned detectors LIGO and VIRGO are merging compact binaries, i.e., neutron star/neutron star (NS/NS), neutron star/black hole (NS/BH), and black hole/black-hole (BH/BH) binaries. We investigate how accurately the distance to the source and the masses and spins of the two bodies will be measured from the gravitational wave signals by the three detector LIGO/VIRGO network using ``advanced detectors'' (those present a few years after initial operation). The combination M (M1 M2)3/5(M1 +M2)-1/5 of the masses of the two bodies is measurable with an accuracy ≈ 0.1\%-1\%. The reduced mass is measurable to 10\%-15\% for NS/NS and NS/BH binaries, and 50\% for BH/BH binaries (assuming 10M BH's). Measurements of the masses and spins are strongly correlated; there is a combination of μ and the spin angular momenta that is measured to within 1\%. We also estimate that distance measurement accuracies will be 15\% for 8\% of the detected signals, and 30\% for 60\% of the signals, for the LIGO/VIRGO 3-detector network.

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