A cross-epoch endpoint-consistency test of a single effective scaling from dark energy to inflation

Abstract

A cross-epoch endpoint-consistency test is formulated for a single power-law effective scaling, MU(μ)=β1/4\,MP(μ/MP)γ, connecting late-time cosmic acceleration to the inflationary energy scale. The normalization is anchored at μ=H0 by the late-time dark energy closure relations of the density-responsive gravity (DRG) framework and extrapolated to the inflationary Hubble rate μ=H*. Comparison with the CMB-normalized Starobinsky plateau defines the residual matching factor C infl V0As/V0 RG. The novelty is the formulation of the inflation - dark-energy connection as a quantitative endpoint test between two empirically anchored energy scales. The lever arm H*/H0 1055 compresses endpoint uncertainties into δγ [p(H*/H0)]-1δ X, so requiring C infl=O(1) selects a narrow consistency band. For the benchmark V0 MU4 with c4=O(1), matching requires γ 0.491 and β 0.68, both O(1). Varying p∈[2,8] shifts γ only mildly (approximately 0.45--0.52), with natural matching favoring p 3--4. We present the full uncertainty budget, including cumulative threshold effects (Ξ) and observational errors on the late-time anchor (w0, As, H*). A secondary consequence is that the effective vacuum sector dilutes as ρΦ a-6γ at late times, faster than spatial curvature for γ>1/3. In a closed universe, this permits a cosmological turnaround at |ΩK|(10-4), testable with Stage-IV surveys and qualitatively distinct from ΛCDM.