A unified scalar-field resolution of the H0, S8 and evolving Dark Energy tensions
Abstract
We propose a unified scalar-field framework that addresses, within standard general relativity, three current cosmological anomalies: the H0 tension, the mild preference for reduced late-time clustering (S8), and recent indications of evolving dark energy. The model contains a single minimally coupled canonical scalar field evolving in a smooth potential composed of a localized bump superimposed on an exponential tail. The bump generates a transient pre-recombination energy injection that increases the expansion rate before last scattering, reduces the sound horizon, and shifts the CMB-inferred value of H0 upward. After the field is released, its energy density rapidly redshifts through a kination-like phase, ensuring that the early modification does not persist as an unwanted late-time contribution. At low redshift, the exponential tail drives quintessence-like evolution, naturally yielding w0>-1 and wa<0 while suppressing linear structure growth and moving S8 in the observationally preferred direction. The analysis shows explicitly how this smooth single-field potential can produce the required sequence of early enhancement, rapid dilution, and late-time thawing behavior.
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