Add to ORKGThe recent completion of Advanced LIGO suggests that gravitational waves may soon be directly observed. Past searches for gravitational-wave transients have been impacted by transient noise artifacts, known as glitches, introduced into LIGO data due to instrumental and environmental effects. In this work, we explore how waveform complexity, instead of signal-to-noise ratio, can be used to rank event candidates and distinguish short duration astrophysical signals from glitches. We test this framework using a new hierarchical pipeline that directly compares the Bayesian evidence of explicit signal and glitch models. The hierarchical pipeline is shown to perform well and, in particular, to allow high-confidence detections of a range of wavefor...
The noise of gravitational-wave (GW) interferometers limits their sensitivity and impacts the data q...
Machine learning can be a powerful tool to discover new signal types in astronomical data. We here a...
We present the results from an all-sky search for short-duration gravitational waves in the data of ...
The recent completion of Advanced LIGO suggests that gravitational waves may soon be directly observ...
Extracting astrophysical information from gravitational-wave detections is a well-posed problem and ...
We show that gravitational-wave signals from compact binary mergers may be better distinguished from...
The observational era of gravitational-wave astronomy began in the fall of 2015 with the detection o...
The sensitivity of searches for astrophysical transients in data from the Laser Interferometer Gravi...
"Blip glitches" are a type of short duration transient noise in LIGO data. The cause for the majorit...
The observation of gravitational waves from compact binary coalescences by LIGO and Virgo has begun ...
The principal problem of gravitational wave detection is distinguishing true gravitational wave sign...
Gravitational wave astronomy is established with direct observation of gravitational wave from mergi...
“The existence of gravitational waves (GWs), small perturbations in spacetime produced by accelerati...
Interferometric gravitational-wave detectors like LIGO, GEO600 and Virgo record a surplus of informa...
The noise of gravitational-wave (GW) interferometers limits their sensitivity and impacts the data q...
Machine learning can be a powerful tool to discover new signal types in astronomical data. We here a...
We present the results from an all-sky search for short-duration gravitational waves in the data of ...
The recent completion of Advanced LIGO suggests that gravitational waves may soon be directly observ...
Extracting astrophysical information from gravitational-wave detections is a well-posed problem and ...
We show that gravitational-wave signals from compact binary mergers may be better distinguished from...
The observational era of gravitational-wave astronomy began in the fall of 2015 with the detection o...
The sensitivity of searches for astrophysical transients in data from the Laser Interferometer Gravi...
"Blip glitches" are a type of short duration transient noise in LIGO data. The cause for the majorit...
The observation of gravitational waves from compact binary coalescences by LIGO and Virgo has begun ...
The principal problem of gravitational wave detection is distinguishing true gravitational wave sign...
Gravitational wave astronomy is established with direct observation of gravitational wave from mergi...
“The existence of gravitational waves (GWs), small perturbations in spacetime produced by accelerati...
Interferometric gravitational-wave detectors like LIGO, GEO600 and Virgo record a surplus of informa...
The noise of gravitational-wave (GW) interferometers limits their sensitivity and impacts the data q...
Machine learning can be a powerful tool to discover new signal types in astronomical data. We here a...
We present the results from an all-sky search for short-duration gravitational waves in the data of ...