Currently, the $\Lambda$ Cold Dark Matter model, which relies on the
existence of cold dark matter and a cosmological constant $\Lambda$, best
describes the Universe. However, we lack information in the high-redshift ($z$)
region between Type Ia Supernovae (SNe Ia) (up to $z=2.26$) and the Cosmic
Microwave Background ($z=1100$), an interval crucial to test cosmological
models and their possible evolution. We have defined a sample of 983 Quasars up
to $z=7.54$ with reduced intrinsic dispersion $\delta=0.007$ which determines
the matter density parameter $\Omega_M$ with the same precision of SNe Ia.
Although previous analysis have been used Quasars as cosmological tools (e.g.
Risaliti and Lusso 2019), this is the first time that high-redshift sources, in
this case Quasars, as standalone cosmological probes yield such tight
constraints on $\Omega_M$. Our results show the importance of correcting
cosmological relationships for selection biases and redshift evolution and how
the choice of a golden sample reduces considerably the intrinsic scatter. This
proves the reliability of Quasars as standard cosmological candles.Comment: Accepted for publication in Ap

Bargiacchi, Giada

Capozziello, Salvatore

Dainotti, Maria Giovanna

Lenart, Aleksander Łukasz

Nagataki, Shigehiro

The Astrophysical Journal

English

arXiv

Currently, the Λ cold dark matter model, which relies on the existence of cold dark matter and a cosmological constant Λ, best describes the universe. However, we lack information in the high-redshift (z) region between Type Ia supernovae (SNe Ia; up to z = 2.26) and the cosmic microwave background (z = 1100), an interval crucial to test cosmological models and their possible evolution. We have defined a sample of 983 quasars up to z = 7.54 with a reduced intrinsic dispersion δ = 0.007, which determines the matter density parameter $\Omega_{M}$ with the same precision of SNe Ia. Although previous analysis have used quasars as cosmological tools, this is the first time that high-redshift sources, in this case quasars, as standalone cosmological probes yield such tight constraints on $\Omega_{M}$. Our results show the importance of correcting cosmological relationships for selection biases and redshift evolution and how the choice of a golden sample reduces considerably the intrinsic scatter. This proves the reliability of quasars as standard cosmological candles

Dainotti, Maria

Bargiacchi, G.

Lenart, Aleksander

Nagataki, S.

Capozziello, S.

Jagiellonian Univeristy Repository

Quasars : standard candles up to z = 7.5 with the precision of Supernovae Ia

arXiv.org e-Print Archive

Quasars: standard candles up to z=7.5 with the precision of Supernovae
  Ia

M. G. Dainotti

G. Bargiacchi

A. Ł. Lenart

S. Nagataki

S. Capozziello

Archivio della ricerca - Università degli studi di Napoli Federico II

Quasars: Standard Candles up to z = 7.5 with the Precision of Supernovae Ia

https://ruj.uj.edu.pl/xmlui/bitstream/handle/item/316636/lenart_et-al_quasars_standard_candles_2023.pdf?sequence=1&isAllowed=y

Quasars: standard candles up to z=7.5 with the precision of Supernovae Ia

Abstract

Similar works

Full text

Available Versions

Jagiellonian Univeristy Repository

arXiv.org e-Print Archive

Archivio della ricerca - Università degli studi di Napoli Federico II