Quintessential α-attractors fit DESI

Abstract

We study quintessence in α-attractor models in light of recent DESI indications for dynamical dark energy. We show that the knee of the attractor potential provides an excellent approximation to the axion-like quintessence model used as a DESI benchmark. This leads to a simple relation between the axion decay constant fa and the attractor parameter α, allowing the experimental constraints to be translated into a preference for α=O(1), in agreement with string-motivated expectations. We solve the background dynamics numerically and find good agreement with the DESI-preferred evolution of w(z) up to z(1). More generally, we point out that the agreement between axion-like and attractor potentials reflects a common requirement imposed by the data: today's potential energy and slope are both of order the Hubble scale in Planck units. We finally comment on the origin of the required initial conditions, which can naturally arise in multifield attractor scenarios.