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      Black hole spectroscopy: Systematic errors and ringdown energy estimates

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      Physical Review D
      American Physical Society (APS)

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          Observation of Gravitational Waves from a Binary Black Hole Merger

          On September 14, 2015 at 09:50:45 UTC the two detectors of the Laser Interferometer Gravitational-Wave Observatory simultaneously observed a transient gravitational-wave signal. The signal sweeps upwards in frequency from 35 to 250 Hz with a peak gravitational-wave strain of \(1.0 \times 10^{-21}\). It matches the waveform predicted by general relativity for the inspiral and merger of a pair of black holes and the ringdown of the resulting single black hole. The signal was observed with a matched-filter signal-to-noise ratio of 24 and a false alarm rate estimated to be less than 1 event per 203 000 years, equivalent to a significance greater than 5.1 {\sigma}. The source lies at a luminosity distance of \(410^{+160}_{-180}\) Mpc corresponding to a redshift \(z = 0.09^{+0.03}_{-0.04}\). In the source frame, the initial black hole masses are \(36^{+5}_{-4} M_\odot\) and \(29^{+4}_{-4} M_\odot\), and the final black hole mass is \(62^{+4}_{-4} M_\odot\), with \(3.0^{+0.5}_{-0.5} M_\odot c^2\) radiated in gravitational waves. All uncertainties define 90% credible intervals.These observations demonstrate the existence of binary stellar-mass black hole systems. This is the first direct detection of gravitational waves and the first observation of a binary black hole merger.
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            GW151226: Observation of Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence

            We report the observation of a gravitational-wave signal produced by the coalescence of two stellar-mass black holes. The signal, GW151226, was observed by the twin detectors of the Laser Interferometer Gravitational-Wave Observatory (LIGO) on December 26, 2015 at 03:38:53 UTC. The signal was initially identified within 70 s by an online matched-filter search targeting binary coalescences. Subsequent off-line analyses recovered GW151226 with a network signal-to-noise ratio of 13 and a significance greater than 5 \(\sigma\). The signal persisted in the LIGO frequency band for approximately 1 s, increasing in frequency and amplitude over about 55 cycles from 35 to 450 Hz, and reached a peak gravitational strain of \(3.4_{-0.9}^{+0.7} \times 10^{-22}\). The inferred source-frame initial black hole masses are \(14.2_{-3.7}^{+8.3} M_{\odot}\) and \(7.5_{-2.3}^{+2.3} M_{\odot}\) and the final black hole mass is \(20.8_{-1.7}^{+6.1} M_{\odot}\). We find that at least one of the component black holes has spin greater than 0.2. This source is located at a luminosity distance of \(440_{-190}^{+180}\) Mpc corresponding to a redshift \(0.09_{-0.04}^{+0.03}\). All uncertainties define a 90 % credible interval. This second gravitational-wave observation provides improved constraints on stellar populations and on deviations from general relativity.
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              Nonspherical Perturbations of Relativistic Gravitational Collapse. I. Scalar and Gravitational Perturbations

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                Author and article information

                Journal
                PRVDAQ
                Physical Review D
                Phys. Rev. D
                American Physical Society (APS)
                2470-0010
                2470-0029
                February 2018
                February 28 2018
                : 97
                : 4
                Article
                10.1103/PhysRevD.97.044048
                ef7b1ec4-8025-4946-91b7-ca8f8cca9df4
                © 2018

                https://link.aps.org/licenses/aps-default-license

                https://link.aps.org/licenses/aps-default-accepted-manuscript-license

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