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Hubble parameter estimation via dark sirens with the LISA-Taiji network

Renjie Wang, Wen-Hong Ruan, Qing Yang, Zong‐Kuan Guo, Rong-Gen Cai, Bin Hu

2021National Science Review38 citationsDOIOpen Access PDF

Abstract

The Hubble parameter is one of the central parameters in modern cosmology, and describes the present expansion rate of the universe. The values of the parameter inferred from late-time observations are systematically higher than those inferred from early-time measurements by about [Formula: see text]. To reach a robust conclusion, independent probes with accuracy at percent levels are crucial. Gravitational waves from compact binary coalescence events can be formulated into the standard siren approach to provide an independent Hubble parameter measurement. The future space-borne gravitational wave observatory network, such as the LISA-Taiji network, will be able to measure the gravitational wave signals in the millihertz bands with unprecedented accuracy. By including several statistical and instrumental noises, we show that, within a five-year operation time, the LISA-Taiji network is able to constrain the Hubble parameter within [Formula: see text] accuracy, and possibly beats the scatters down to [Formula: see text] or even better.

Topics & Concepts

Hubble's lawGravitational wavePhysicsObservatoryCoalescence (physics)Dark energyBinary numberCosmologyParameter spaceGravitationAstrophysicsAstronomyStatisticsMathematicsArithmeticPulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesRadio Astronomy Observations and Technology