Differential age observations and their constraining power in cosmology

TL;DR

This paper derives a general expression for the differential age signal in cosmology, showing it as a robust, model-independent probe of the universe's expansion rate under broad assumptions.

Contribution

It provides a new, general kinematic interpretation of the differential age signal applicable to a wide class of cosmological space-times.

Findings

Differential age signal relates to line-of-sight averages of expansion rate.

It is a robust, unbiased probe of volume-average expansion.

Applicable to general statistically homogeneous and isotropic space-times.

Abstract

We derive the differential age signal valid for cosmic chronometers (passively evolving galaxies) in any space-time that satisfies the following assumptions: (i) The space-time has a metric with Lorentzian signature and the connection is the Levi-Civita connection; (ii) the cosmic chronometers are collectively well approximated as a geodesic and irrotational congruence of time-like worldlines in the space-time; (iii) light travels on null geodesics and caustics on the observer's past light cone can be ignored; (iv) the space-time is cosmological, meaning that isotropic and positive expansion degrees-of-freedom dominate over anisotropic and negative expansion degrees-of-freedom when viewed on sufficiently large scales in the frame of the cosmic chronometers. The main result of the paper is an expression for the differential age signal that is written in terms of line-of-sight averages of the expansion rate along individual null lines, thus providing a kinematic interpretation of the differential age signal applicable to cosmological space-times satisfying (i)--(iv). We explain how this result indicates that the differential age signal is a robust probe of the volume-average expansion rate in very general statistically homogeneous and isotropic space-time scenarios where other probes of the volume-average expansion rate tend to yield biased results. We argue that this unique property of the differential age signal makes it an ideal measurement for constraining the expansion history model-independently.