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Quasar UV/X-ray relation luminosity distances are shorter than reverberation-measured radius–luminosity relation luminosity distances

Narayan Khadka, Michal Zajaček, Raj Prince, Swayamtrupta Panda, B. Czerny, Mary Loli Martínez‐Aldama, Vikram Kumar Jaiswal, Bharat Ratra

2023Monthly Notices of the Royal Astronomical Society30 citationsDOIOpen Access PDF

Abstract

ABSTRACT We use measurements of 59/58 quasars (QSOs), over a redshift range 0.0041 ≤ z ≤ 1.686, to do a comparative study of the radius–luminosity (R − L) and X-ray−UV luminosity (LX − LUV) relations and the implication of these relations for cosmological parameter estimation. By simultaneously determining R − L or LX − LUV relation parameters and cosmological parameters in six different cosmological models, we find that both R − L and LX − LUV relations are standardizable but provide only weak cosmological parameter constraints, with LX − LUV relation data favouring larger current non-relativistic matter density parameter Ωm0 values than R − L relation data and most other available data. We derive LX − LUV and R − L luminosity distances for each of the sources in the six cosmological models and find that LX − LUV relation luminosity distances are shorter than R − L relation luminosity distances as well as standard flat ΛCDM model luminosity distances. This explains why LX − LUV relation QSO data favour larger Ωm0 values than do R − L relation QSO data or most other cosmological measurements. While our sample size is small and only spans a small z range, these results indicate that more work is needed to determine whether the LX − LUV relation can be used as a cosmological probe.

Topics & Concepts

PhysicsAstrophysicsQuasarLuminosityQSOSRADIUSRedshiftLuminosity distanceCosmologyReverberation mappingRange (aeronautics)GalaxyComposite materialComputer securityMaterials scienceComputer scienceGalaxies: Formation, Evolution, PhenomenaCosmology and Gravitation TheoriesAstrophysics and Cosmic Phenomena