Detecting Triple Systems With Gravitational Wave Observations
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https://doi.org/10.3847/1538-4357/834/2/200Metadata
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Meiron, Yohai, Bence Kocsis, and Abraham Loeb. 2017. “Detecting Triple Systems With Gravitational Wave Observations.” The Astrophysical Journal 834 (2) (January 13): 200. doi:10.3847/1538-4357/834/2/200.Abstract
The Laser Interferometer Gravitational Wave Observatory (LIGO) has recently discovered gravitational waves (GWs) emitted by merging black hole binaries. We examine whether future GW detections may identify triple companions of merging binaries. Such a triple companion causes variations in the GW signal due to (1) the varying path length along the line of sight during the orbit around the center of mass, (2) relativistic beaming, Doppler, and gravitational redshift, (3) the variation of the "light"-travel time in the gravitational field of the triple companion, and (4) secular variations of the orbital elements. We find that the prospects for detecting the triple companion are the highest for low-mass compact object binaries which spend the longest time in the LIGO frequency band. In particular, for merging neutron star binaries, LIGO may detect a white dwarf or M-dwarf perturber at signal to noise ratio of 8, if it is within 0.4 solar radius distance from the binary and the system is within a distance of 100 Mpc. Stellar mass (supermassive) black hole perturbers may be detected at a factor 5x (1000x) larger separations. Such pertubers in orbit around the merging binary emit GWs at frequencies above 1 mHz detectable by the Laser Interferometer Space Antenna (LISA) in coincidence.Other Sources
https://arxiv.org/abs/1604.02148Terms of Use
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