Improved constraint on the Hubble constant from dark sirens with LIGO/Virgo/KAGRA O4a
Abstract
A new measurement of the Hubble constant H0 is presented using the statistical dark siren method applied to a sample of seven well-localized gravitational-wave (GW) events from the fourth LIGO-Virgo-KAGRA (LVK) observing run and ten additional events from the first three runs. Galaxy catalogs from the DESI Legacy Imaging Survey (LS) are combined with a deep learning model to compute photometric redshift probability density functions. We extend our previous analysis by including the events GW230731215307 and GW230927153832, using sky maps from the fourth Gravitational-Wave Transient Catalog (GWTC-4), and introducing key methodological improvements: r-band luminosity weighting of host galaxies; an extended GW likelihood that incorporates information from the binary black hole component masses; and a consistent treatment of selection effects that accounts for the incompleteness of the magnitude-limited LS galaxy catalog. Using a total of 17 well-localized dark sirens (seven from the first part of the fourth observing run, O4a), we obtain H0 = 78.8+14.6-12.2 km/s/Mpc without luminosity weighting and H0 = 78.2+12.0-11.0 km/s/Mpc when applying r-band luminosity weighting. Finally, we combine the luminosity-weighted dark siren sample with the bright siren GW170817, including constraints on the jet viewing angle and corrections for the host galaxy peculiar velocity, to obtain a final constraint of H0 = 69.9+4.1-4.0 km/s/Mpc, representing an improvement of approximately 11% in the uncertainty relative to the GW170817-only result.
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