English

Quasars as high-redshift standard candles

Cosmology and Nongalactic Astrophysics 2022-07-27 v1 High Energy Astrophysical Phenomena

Abstract

The non-linear relation between the X-ray and ultraviolet (UV) luminosity in quasars has been used to derive quasar distances and to build a Hubble diagram at redshifts up to zz\sim 7. This cosmological application is based on the assumption of independence of the relation on redshift and luminosity. We want to test the reliability of this hypothesis by studying the spectroscopic properties of high-redshift quasars in the X-ray and UV bands. We performed a one-by-one analysis of a sample of 130 quasars at z>z> 2.5 with high-quality X-ray and UV spectroscopic observations. We found that not only the X-ray to UV correlation still holds at these redshifts, but its intrinsic dispersion is as low as 0.12 dex (previous works reached 0.20-0.22 dex). For a sample of quasars at zz\sim 3 with particularly high-quality observations the dispersion further drops to 0.09 dex, a value entirely accountable for by intrinsic variability and source geometry effects. The composite spectra of these quasars, in both the X-rays and the UV, do not show any difference with respect to the average spectra of quasars at lower redshifts. The absence of any spectral difference between high- and low-zz quasars and the tightness of the X-ray to UV relation suggests that no evolutionary effects are present in the relation. Therefore, it can be safely employed to derive quasar distances. Under this assumption, we obtain a measurement of the luminosity distance at zz\sim 3 with 15 % uncertainty, and in a 4σ\sigma tension with the concordance model.

Keywords

Cite

@article{arxiv.2206.13528,
  title  = {Quasars as high-redshift standard candles},
  author = {A. Sacchi and G. Risaliti and M. Signorini and E. Lusso and E. Nardini and G. Bargiacchi and S. Bisogni and F. Civano and M. Elvis and G. Fabbiano and R. Gilli and B. Trefoloni and C. Vignali},
  journal= {arXiv preprint arXiv:2206.13528},
  year   = {2022}
}

Comments

Accepted for publication in Astronomy & Astrophysics Letters, 8 pages, 6 figures

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