Localization of short duration gravitational-wave transients with the early advanced LIGO and Virgo detectors
Reed Essick and Salvatore Vitale and Erik Katsavounidis and Gabriele Vedovato and Sergey Klimenko

folder Localization of short duration gravitational-wave transients with the early advanced LIGO and Virgo detectors (9 files)
fileBF2Y-2016-WNB.tar.gz 5.19GB
fileBF2Y-2016-SG.tar.gz 3.07GB
fileBF2Y-2016-G.tar.gz 911.11MB
fileBF2Y-2015-WNB.tar.gz 6.34GB
fileall_BF2Y-2015-BBH.tar.gz 3.16GB
fileBF2Y-2015-G.tar.gz 1.31GB
filearXiv_paper.pdf 1.62MB
fileall_BF2Y-2016-BBH.tar.gz 2.81GB
fileBF2Y-2015-SG.tar.gz 9.20GB
Type: Dataset
Tags: ligo, gravitational waves, Virgo, gravitational-wave transients

Bibtex:
@article{,
title= {Localization of short duration gravitational-wave transients with the early advanced LIGO and Virgo detectors},
journal= {},
author= {Reed Essick and Salvatore Vitale and Erik Katsavounidis and Gabriele Vedovato and Sergey Klimenko},
year= {2015},
url= {},
abstract= {The Laser Interferometer Gravitational wave Observatory (LIGO) and Virgo, advanced ground-based gravitational-wave detectors, will begin collecting science data in 2015. With first detections expected to follow, it is important to quantify how well generic gravitational-wave transients can be localized on the sky. This is crucial for correctly identifying electromagnetic counterparts as well as understanding gravitational-wave physics and source populations. We present a study of sky localization capabilities for two search and parameter estimation algorithms: \emph{coherent WaveBurst}, a constrained likelihood algorithm operating in close to real-time, and \emph{LALInferenceBurst}, a Markov chain Monte Carlo parameter estimation algorithm developed to recover generic transient signals with latency of a few hours. Furthermore, we focus on the first few years of the advanced detector era, when we expect to only have two (2015) and later three (2016) operational detectors, all below design sensitivity. These detector configurations can produce significantly different sky localizations, which we quantify in detail. We observe a clear improvement in localization of the average detected signal when progressing from two-detector to three-detector networks, as expected. Although localization depends on the waveform morphology, approximately 50% of detected signals would be imaged after observing 100-200 degrees  in 2015 and 60-110 degrees in 2016, although knowledge of the waveform can reduce this to as little as 22 degrees This is the first comprehensive study on sky localization capabilities for generic transients of the early network of advanced LIGO and Virgo detectors, including the early LIGO-only two-detector configuration.},
keywords= {ligo, gravitational waves, Virgo, gravitational-wave transients},
terms= {},
license= {},
superseded= {}
}


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