Simon Birrer, Graham P. Smith, Anowar J. Shajib, Dan Ryczanowski, Nikki Arendse
Published 2025-02-06Version 1
Strong gravitational lensing of variable sources, such as quasars or supernovae, can be used to constrain cosmological parameters through a technique known as "time-delay cosmography''. Competitive constraints on the Hubble constant have been achieved with electromagnetic observations of lensed quasars and lensed supernovae. Gravitational wave (GW) astronomy may open up a new channel for time-delay cosmography with GW signal replacing the electromagnetic (EM) one. We highlight the similarities of using GW signals to be applied to time-delay cosmography compared to EM signal. We then discuss key differences between GW and EM signals and their resulting advantages and inconveniences from the angle of the current state-of-the-art using quasars and lensed supernovae for time-delay cosmography. We identify the astrometric precision requirement of the images as a key challenge to overcome and highlight the potentially significant impact that near-perfect time-delay measurements of lensed GWs can bring to the table.
Comments: 9 pages, 2 figures, accepted to be published in Philosophical Transactions A
TDCOSMO. I. An exploration of systematic uncertainties in the inference of $H_0$ from time-delay cosmography
Time-Delay Cosmography: Measuring the Hubble Constant and other cosmological parameters with strong gravitational lensing
TDCOSMO X: A key test of systematics in the hierarchical method of time-delay cosmography
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