Cosmic sign-reversal: non-parametric reconstruction of interacting dark energy with DESI DR2

Abstract

A direct interaction between dark energy and dark matter provides a natural and important extension to the standard cosmology. We perform a non-parametric reconstruction of the vacuum energy (w=-1) interacting with cold dark matter using the cosmological data from DESI DR2, Planck CMB, and three SNIa samples (PP, DESY5, and Union3). By discretizing the coupling function β(z) into 20 redshift bins and assuming a Gaussian smoothness prior, we reconstruct β(z) without assuming any specific parameterization. The mean reconstructed β(z) changes sign during cosmic evolution, indicating an energy transfer from cold dark matter to dark energy at early times and a reverse flow at late times. At high redshifts, β(z) shows a 2σ deviation from . At low redshifts, the results depend on the SNIa sample: CMB+DESI and CMB+DESI+PP yield β(z) consistent with zero within 2σ, while CMB+DESI+DESY5 and CMB+DESI+Union3 prefer negative β at 2σ. Both 2 tests and Bayesian analyses favor the β(z) model, with CMB+DESI DR2+DESY5 showing the most significant support through the largest improvement in goodness of fit (2 MAP=-17.76) and strongest Bayesian evidence ( = 5.98 0.69). Principal component analysis reveals that the data effectively constrain three additional degrees of freedom in the β(z) model, accounting for most of the improvement in goodness of fit. Our results demonstrate that the dynamical dark energy preference in current data can be equally well explained by such a sign-reversal interacting dark energy, highlighting the need for future observations to break this degeneracy.