Gravitational waves: search results, data analysis and parameter estimation: Amaldi 10 Parallel session C2.
Pia AstoneAlan WeinsteinMichalis AgathosMichał BejgerNelson ChristensenThomas DentPhilip GraffSergey KlimenkoGiulio MazzoloAtsushi NishizawaFlorent RobinetPatricia SchmidtRory SmithJohn VeitchMadeline WadeSofiane AoudiaSukanta BoseJuan Calderon BustilloPriscilla CanizaresColin CapanoJames ClarkAlberto CollaElena CuocoCarlos Da Silva CostaTito Dal CantonEdgar EvangelistaEvan GoetzAnuradha GuptaMark HannamDavid KeitelBenjamin LackeyJoshua LogueSatyanarayan MohapatraFrancesco PiergiovanniStephen PriviteraReinhard PrixMichael PürrerVirginia ReRoberto SerafinelliLeslie WadeLinqing WenKarl WetteJohn WhelanC PalombaG ProdiPublished in: General relativity and gravitation (2015)
The Amaldi 10 Parallel Session C2 on gravitational wave (GW) search results, data analysis and parameter estimation included three lively sessions of lectures by 13 presenters, and 34 posters. The talks and posters covered a huge range of material, including results and analysis techniques for ground-based GW detectors, targeting anticipated signals from different astrophysical sources: compact binary inspiral, merger and ringdown; GW bursts from intermediate mass binary black hole mergers, cosmic string cusps, core-collapse supernovae, and other unmodeled sources; continuous waves from spinning neutron stars; and a stochastic GW background. There was considerable emphasis on Bayesian techniques for estimating the parameters of coalescing compact binary systems from the gravitational waveforms extracted from the data from the advanced detector network. This included methods to distinguish deviations of the signals from what is expected in the context of General Relativity.