Th. Bauer scite author profile

Advanced Virgo is the project to upgrade the Virgo interferometric detector of gravitational waves, with the aim of increasing the number of observable galaxies (and thus the detection rate) by three orders of magnitude. The project is now in an advanced construction phase and the assembly and integration will be completed by the end of 2015. Advanced Virgo will be part of a network, alongside the two Advanced LIGO detectors in the US and GEO HF in Germany, with the goal of contributing to the early detections of gravitational waves and to the opening a new window of observation on the universe. In this paper we describe the main features of the Advanced Virgo detector and outline the status of the construction.

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LHCb Collaboration

Aaij

et al. 2014

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Predictions for the rates of compact binary coalescences observable by ground-based gravitational-wave detectors

Abadie¹,

Abbott²,

Abbott³

et al. 2010

Class. Quantum Grav.

1,062

1,322

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We present an up-to-date, comprehensive summary of the rates for all types of compact binary coalescence sources detectable by the initial and advanced versions of the ground-based gravitational-wave detectors LIGO and Virgo. Astrophysical estimates for compact-binary coalescence rates depend on a number of assumptions and unknown model parameters and are still uncertain. The most confident among these estimates are the rate predictions for coalescing binary neutron stars which are based on extrapolations from observed binary pulsars in our galaxy. These yield a likely coalescence rate of 100 Myr−1 per Milky Way Equivalent Galaxy (MWEG), although the rate could plausibly range from 1 Myr−1 MWEG−1 to 1000 Myr−1 MWEG−1 (Kalogera et al 2004 Astrophys. J. 601 L179; Kalogera et al 2004 Astrophys. J. 614 L137 (erratum)). We convert coalescence rates into detection rates based on data from the LIGO S5 and Virgo VSR2 science runs and projected sensitivities for our advanced detectors. Using the detector sensitivities derived from these data, we find a likely detection rate of 0.02 per year for Initial LIGO–Virgo interferometers, with a plausible range between 2 × 10−4 and 0.2 per year. The likely binary neutron–star detection rate for the Advanced LIGO–Virgo network increases to 40 events per year, with a range between 0.4 and 400 per year.

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Characterization of the LIGO detectors during their sixth science run

Aasi

Abadie

Abbott

et al. 2015

Class. Quantum Grav.

1,183

498

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In 2009-2010, the Laser Interferometer Gravitational-wave Observatory (LIGO) operated together with international partners Virgo and GEO600 as a network to search for gravitational waves of astrophysical origin. The sensitivity of these detectors was limited by a combination of noise sources inherent to the instrumental design and its environment, often localized in time or frequency, that couple into the gravitational-wave readout. Here we review the performance of the LIGO instruments during this epoch, the work done to characterize the detectors and their data, and the effect that transient and continuous noise artefacts have on the sensitivity of LIGO to a variety of astrophysical sources.

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Measurement of Form-Factor-Independent Observables in the DecayB0→K*0μ+μ−

Aaij¹,

Adeva²,

Adinolfi³

et al. 2013

Phys. Rev. Lett.

490

410

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Th. Bauer

Advanced Virgo: a second-generation interferometric gravitational wave detector

LHCb Collaboration

Predictions for the rates of compact binary coalescences observable by ground-based gravitational-wave detectors

Characterization of the LIGO detectors during their sixth science run

Measurement of Form-Factor-Independent Observables in the DecayB0→K*0μ+μ−

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