Scalar field dark energy models: Current and forecast constraints

Abstract

Recent results from Type Ia supernovae (SNe Ia) and baryon acoustic oscillations (BAO), in combination with cosmic microwave background (CMB) measurements, have focused renewed attention on dark energy models with a time-varying equation-of-state parameter, w(z). In this paper, we describe the simplest, physically motivated models of evolving dark energy that are consistent with the recent data, a broad subclass of the so-called thawing scalar field models that we dub wφCDM. We provide a quasi-universal, quasi-one-parameter functional fit to the scalar-field wφ(z) that captures the behavior of these models more informatively than the standard w0wa phenomenological parametrization; their behavior is completely described by the current value of the equation-of-state parameter, w0=w(z=0). Combining current data from BAO (DESI Data Release 2), the CMB (Planck and ACT), large-scale structure (DES Year-3 3×2pt), SNe Ia (DES-SN5YR), and strong lensing (TDCOSMO + SLACS), for wφCDM we obtain w0=-0.904-0.033+0.034, 2.9σ discrepant from the cold dark matter () model. The Bayesian evidence ratio substantially favors this wφCDM model over . The data combination that yields the strongest discrepancy with is BAO+SNe Ia, for which w0=-0.837+0.044-0.045, 3.6σ discrepant from and with a Bayesian evidence ratio strongly in favor. We find that the so-called S8 tension between the CMB and large-scale structure is slightly reduced in these models, while the Hubble tension is slightly increased. We forecast constraints on these models from near-future surveys (DESI-extension and the Vera C. Rubin Observatory LSST), showing that the current best-fit wφCDM model will be distinguishable from at over 9σ.

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