Litcius/Paper detail

Omicron: A tool to characterize transient noise in gravitational-wave detectors

Florent Robinet, Nicolas Arnaud, Nicolas Leroy, Andrew Lundgren, Duncan Macleod, Jessica McIver

2020SoftwareX91 citationsDOIOpen Access PDF

Abstract

The Omicron software is a tool developed to perform a multi-resolution time–frequency analysis of data from gravitational-wave detectors: the LIGO, Virgo, and KAGRA detectors. Omicron generates spectrograms from whitened data streams, offering a visual representation of transient detector noises and gravitational-wave events. In addition, these events can be parameterized with an optimized resolution. They can be written to disk to conduct offline noise characterization and gravitational-wave event validation studies. Omicron is optimized to process, in parallel, thousands of data streams recorded by gravitational-wave detectors. The Omicron software plays an important role in vetting gravitational-wave detection candidates and characterization of transient noise.

Topics & Concepts

DetectorComputer scienceTransient (computer programming)SoftwareNoise (video)SpectrogramRepresentation (politics)Event (particle physics)Characterization (materials science)PhysicsDeconvolutionSoftware toolArtificial intelligenceParameterized complexityNoise measurementBackground noiseComponent (thermodynamics)Envelope (radar)Pulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesRelativity and Gravitational Theory
Omicron: A tool to characterize transient noise in gravitational-wave detectors | Litcius