Binaries as Sources of Gravitational Waves
Gijs Nelemans (Radboud University)
TL;DR
The paper discusses how gravitational wave detections from binary systems, including black holes, neutron stars, and white dwarfs, will revolutionize our understanding of stellar evolution, binary formation, and the universe's history.
Contribution
It highlights the potential of upcoming and future gravitational wave detectors to provide unprecedented insights into binary evolution and stellar physics.
Findings
Current detectors have identified several black hole mergers.
Future detectors will observe thousands of sources across the universe.
Gravitational wave data will constrain models of stellar evolution and binary formation.
Abstract
With the discovery of both binary black hole mergers and a binary neutron star merger the field of Gravitational Wave Astrophysics has really begun. The current advanced LIGO and Virgo detectors are laser interferometers that will improve their sensitivity in the coming years. In the long run, new detectors such as LISA and the Einstein Telescope will have sensitivities that allow the detection of many thousands of sources and ET can observe essentially the whole observable Universe, for heavy black holes. All these measurements will provide new answers to open questions in binary evolution, related to mass transfer, out-of-equilibrium stars and the role of metallicity. In addition, the data will give new constraints on uncertainties in the evolution of (massive) stars, such as stellar winds, the role of rotation and the final collapse to a neutron star or black hole. For black hole…
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Taxonomy
TopicsPulsars and Gravitational Waves Research · Gamma-ray bursts and supernovae