Breaking through the high redshift bottleneck of Observational Hubble parameter Data: The Sandage-Loeb signal Scheme

Abstract

We propose a valid scheme to measure the Hubble parameter H(z) at high redshifts by detecting the Sandage-Loeb signal (SL signal) which can be realized by the next generation extremely large telescope. It will largely extend the current observational Hubble parameter data (OHD) towards the redshift region of z ∈ [2.0,5.0], the so-called "redshift desert", where other dark energy probes are hard to provide useful information of the cosmic expansion. Quantifying the ability of this future measurement by simulating observational data for a CODEX (COsmic Dynamics and EXo-earth experiment)-like survey and constraining various cosmological models, we find that the SL signal scheme brings the redshift upper-limit of OHD from zmax=2.3 to zmax 5.0, provides more accurate constraints on different dark energy models, and greatly changes the degeneracy direction of the parameters. For the case, the accuracy of m is improved by 58\% and the degeneracy between m and is rotated to the vertical direction of k = 0 line strongly; for the wCDM case, the accuracy of w is improved by 15\%. The Fisher matrix forecast on different time-dependent w(z) is also performed.