Estimating the parameters of nonspinning binary black holes using ground-based gravitational-wave detectors: Statistical errors

被引:78
作者
Ajith, P. [1 ,2 ,3 ]
Bose, Sukanta [1 ,2 ,4 ]
机构
[1] Max Planck Inst Gravitat Phys, Albert Einstein Inst, D-30167 Hannover, Germany
[2] Leibniz Univ Hannover, D-30167 Hannover, Germany
[3] CALTECH, LIGO Lab, Pasadena, CA 91125 USA
[4] Washington State Univ, Dept Phys & Astron, Pullman, WA 99164 USA
基金
美国国家科学基金会;
关键词
ACTIVE GALACTIC NUCLEUS; COMPACT BINARIES; COALESCING BINARY; NETWORK; UNVEILS; SEARCH; CHOICE; STAR;
D O I
10.1103/PhysRevD.79.084032
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
We assess the statistical errors in estimating the parameters of nonspinning black hole binaries using ground-based gravitational-wave detectors. While past assessments were based on partial information provided by only the inspiral and/or ring-down pieces of the coalescence signal, the recent progress in analytical and numerical relativity enables us to make more accurate projections using complete inspiral-merger-ring-down waveforms. We employ the Fisher information-matrix formalism to estimate how accurately the source parameters will be measurable using a single interferometric detector as well as a network of interferometers. Those estimates are further vetted by full-fledged Monte Carlo simulations. We find that the parameter accuracies of the complete waveform are, in general, significantly better than those of just the inspiral waveform in the case of binaries with total mass M greater than or similar to 20M. In particular, for the case of the Advanced LIGO detector, parameter estimation is the most accurate in the M=100-200M range. For an M=100M system, the errors in measuring the total mass and the symmetric mass-ratio are reduced by an order of magnitude or more compared to inspiral waveforms. Furthermore, for binaries located at a fixed luminosity distance d(L), and observed with the Advanced LIGO-Advanced Virgo network, the sky-position error is expected to vary widely across the sky: For M=100M systems at d(L)=1 Gpc, this variation ranges mostly from about a hundredth of a square degree to about a square degree, with an average value of nearly a tenth of a square degree. This is more than 40 times better than the average sky-position accuracy of inspiral waveforms at this mass range. For the mass parameters as well as the sky position, this improvement in accuracy is due partly to the increased signal-to-noise ratio and partly to the information about these parameters harnessed through the post-inspiral phases of the waveform. The error in estimating d(L) is dominated by the error in measuring the wave's polarization and is roughly 43% for low-mass (M similar to 20M) binaries and about 23% for high-mass (M similar to 100M) binaries located at d(L)=1 Gpc.
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页数:21
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