Catching the Cosmic Sign Flip: Background and Growth Tests of Smooth Sign Switching Lambdas CDM

Abstract

Recent baryon acoustic oscillation (BAO) measurements from the Dark Energy Spectroscopic Instrument (DESI), in combination with CMB and supernova data, show a mild preference for dynamical dark energy over flat ΛCDM. They can also drive the best-fit effective neutrino mass to unphysical negative values, motivating models that mimic this effect through late-time expansion physics. The sign-switching cosmological constant (ΛsCDM) model addresses this by introducing an AdS-like negative vacuum energy density at high redshifts (z > z) that transitions to a dS-like positive density at low redshifts. While original fits assumed a discontinuous step function transition, we generalise the dynamics using a smooth hyperbolic tangent parametrisation, Λ(z) [Δ(z - z)]. We constrain the transition redshift z and smoothness parameter Δ using background distance data from DES-SN5YR (with Dovekie recalibration) and DESI 2024 BAO. We further incorporate a compact redshift space distortion (RSD) fσ8 compilation. The joint data do not prefer the smooth sign-switching model over flat ΛCDM, yielding nearly identical χ2min values, while information criteria penalise the additional parameters. The transition smoothness remains unconstrained and dominated by the prior volume (Δ= 24.75+17.42-17.48), indicating that current data cannot distinguish between a sharp transition and a smooth dynamical crossover. This work does not directly constrain the physical sum of neutrino masses Σ mν; rather, it shows that current late-time background and growth data alone cannot resolve the transition details. We discuss the implications of this null detection and present projections for next-generation surveys.

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