Approximate reconstruction of inflationary potential with ACT observations

Abstract

The Atacama Cosmology Telescope (ACT) has recently reported updated measurements of the scalar spectral index ns, revealing a tension with the predictions of many conventional inflationary models. In this work, we adopt a parameterization of the spectral index in the form ns = 1 - p/(N + α) with 1.338<p<1.746, to reconstruct an inflationary potential consistent with the latest ACT data. The resulting potential is the Kachru-Kallosh-Linde-Trivedi (KKLT) potential V(φ) = V0/[1 + (M/φ)n], where the power index is given by n = 2(p-1)/(2-p). The corresponding tensor-to-scalar ratio is approximately r ≈ 16(p-1)/[C (N+α)p] with C= 22p-1 [p-1/(2-p)]2p-2 /M2p-2. Since the reconstruction under the slow-roll approximation is model-independent, the KKLT model can serve as an effective approximation to a broad class of inflationary scenarios that are consistent with the latest ACT measurements of ns, at least on large scales.