| INSTITUTE OF PHYSICS PUBLISHING CLASSICAL AND QUANTUM GRAVITY Class. Quantum Grav. 20 (2003) S65–S72 PII: S0264-9381(03)56106-8 Cosmology with coalescing massive black holes (2007) | |||||||||||||
Abstract | |||||||||||||
| The gravitational waves generated in the coalescence of massive binary black holes will be measurable by LISA to enormous distances. Redshifts z or larger (depending somewhat on the mass of the binary) can potentially be probed by such measurements,suggesting that binary coalescences can be made into cosmological tools. We discuss two particularly interesting types of probe. First, by combining gravitational-wave measurements with information about the cosmography of the universe, we can study the evolution of black-hole masses and merger rates as a function of redshift, providing information about the growth of structures at high redshiftandpossibly constraining hierarchical merger scenarios. Second, if it is possible to associate an `electromagnetic' counterpart with a coalescence, it may be possible to measure both redshift and luminosity distance to an event with less than #1% error. Such a measurement would constitute an amazingly precise cosmological standard candle. Unfortunately, gravitational lensing uncertainties will reduce the quality of this candle significantly.Though not as amazing as might have been hoped, such a candle would nonetheless very usefully complement other distance-redshift probes, in particular providing a valuable check on systematic effects in such measurements. | |||||||||||||
Publication details | |||||||||||||
| |||||||||||||